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©Ricoh Company, Ltd.
January 18th, 2006
Subject to change
Model K-C3 Machine Code:
(B245/B276/B277/B268/B269)
SERVICE MANUAL
B245/B276/B277/B268/B269 Service Manual 18-Jan-06
i
Table of Contents Read This First .....................................................................................................................1
Safety Notices and Symbols & Abbreviations....................................................................1 Important Safety Notices.........................................................................................1
Laser Safety ..................................................................................................................2 Symbols and Abbreviations...............................................................................................2
Installation.............................................................................................................................3 Installation Requirements..................................................................................................3
Environment ..................................................................................................................3 Machine Level ...............................................................................................................4 Minimum Space Requirements......................................................................................4 Power Requirements .....................................................................................................5
Copier Installation .............................................................................................................6 Power Sockets for Peripherals ......................................................................................6 Accessory Check...........................................................................................................6 Installation Procedure ....................................................................................................7
Platen Cover Installation ................................................................................................. 11 Accessory Check......................................................................................................... 11 Installation Procedure .................................................................................................. 11
ARDF Installation ............................................................................................................12 Accessory Check.........................................................................................................12 Installation Procedure ..................................................................................................13
ADF Installation...............................................................................................................16 Accessory Check.........................................................................................................16 Installation Procedure ..................................................................................................17
Two-tray Paper Tray Unit Installation ..............................................................................20 Accessory Check.........................................................................................................20 Installation Procedure ..................................................................................................20
One-tray Paper Tray Unit Installation ..............................................................................25 Accessory Check.........................................................................................................25 Installation Procedure ..................................................................................................25
One-Bin Tray Installation .................................................................................................29 Accessory Check.........................................................................................................29 Installation Procedure ..................................................................................................29
Anti-condensation Heater Installation..............................................................................32
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Tray Heaters ...................................................................................................................33 Upper Tray Heater .......................................................................................................33 Lower Tray Heater (Two-tray Model Only) ...................................................................35 Tray Heaters For The Optional Paper Feed Units .......................................................36
Key Counter Installation ..................................................................................................40 GDI Expansion ................................................................................................................43
Accessory Check.........................................................................................................43 Installing Expansion Component .................................................................................43
Installing Panels and Keys ..............................................................................................45 Preventive Maintenance .....................................................................................................46
PM Tables ....................................................................................................................... 46 How to Reset the PM Counter.........................................................................................49
Replacement and Adjustment .............................................................................................51 General Cautions ............................................................................................................51
PCU (Photoconductor Unit) .........................................................................................51 Transfer Roller .............................................................................................................51 Scanner Unit................................................................................................................51 Laser Unit ....................................................................................................................52 Fusing Unit ..................................................................................................................52 Paper Feed..................................................................................................................52
Special Tools and Lubricants...........................................................................................53 Exterior Covers & Operation Panel .................................................................................54
Rear Cover ..................................................................................................................54 Rear Lower Cover (Two-tray Models Only)..................................................................54 Copy Tray ....................................................................................................................55 Upper Covers ..............................................................................................................55 Left Cover ....................................................................................................................56 Front Cover..................................................................................................................56 Front Right Cover ........................................................................................................57 Right Rear Cover.........................................................................................................57 Right Door (Duplex Unit (B269/B277)) ........................................................................58 By-pass Tray................................................................................................................58 Left Lower Cover (Two-tray Models Only) ...................................................................59 Right Lower Cover (Two-tray Models Only) .................................................................59 Platen Cover Sensor ...................................................................................................60
Scanner Unit ...................................................................................................................61
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Exposure Glass/DF Exposure Glass ...........................................................................61 Lens Block ...................................................................................................................62 Lamp Stabilizer Board And Exposure Lamp ................................................................63 Original Width/Length Sensor......................................................................................63 Scanner Motor .............................................................................................................65 Scanner Home Position Sensor...................................................................................66 Adjusting Scanner Positions ........................................................................................67
Laser Unit........................................................................................................................ 71 Location Of Caution Decal...........................................................................................71 Toner Shield Glass ......................................................................................................71 Laser Unit ....................................................................................................................72 LD Unit......................................................................................................................... 73 Polygonal Mirror Motor ................................................................................................73 Laser Unit Alignment Adjustment.................................................................................74
PCU Section....................................................................................................................76 PCU............................................................................................................................. 76 Pick-off Pawls and Toner Density Sensor ....................................................................77 OPC Drum...................................................................................................................78 Charge Roller and Cleaning Brush ..............................................................................79 Cleaning Blade ............................................................................................................79 Developer ....................................................................................................................80 After Replacement or Adjustment ................................................................................81
Toner Supply Motor .........................................................................................................82 Paper Feed Section ........................................................................................................83
Paper Feed Roller .......................................................................................................83 Friction Pad .................................................................................................................84 Paper End Sensor .......................................................................................................84 Exit Sensor ..................................................................................................................85 By-Pass Feed Roller and Paper End Sensor...............................................................86 Registration Roller .......................................................................................................87 By-Pass Paper Size Switch .........................................................................................88 Registration Clutch ......................................................................................................89 Registration Sensor .....................................................................................................89 Upper Paper Feed Clutch and By-Pass Feed Clutch ..................................................90 Relay Clutch ................................................................................................................90 Relay Sensor ...............................................................................................................91
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Lower Paper Feed Clutch (Two-tray Models Only) ......................................................91 Vertical Transport Sensor (Two-tray Models Only) ......................................................92 Paper Size Switch .......................................................................................................92
Image Transfer ................................................................................................................93 Image Transfer Roller ..................................................................................................93 Image Density Sensor .................................................................................................94
Fusing ............................................................................................................................. 95 Fusing Unit ..................................................................................................................95 Thermistor ...................................................................................................................95 Fusing Lamps ..............................................................................................................96 Hot Roller Stripper Pawls.............................................................................................97 Hot Roller.....................................................................................................................97 Thermostat ..................................................................................................................98 Pressure Roller and Bushings .....................................................................................98 NIP Band Width Adjustment ........................................................................................99 Cleaning Roller ..........................................................................................................100
Duplex Unit (Duplex Models B269/B277 Only)..............................................................101 Duplex Exit Sensor ....................................................................................................101 Duplex Entrance Sensor............................................................................................101 Duplex Inverter Sensor ..............................................................................................102 Duplex Transport Motor .............................................................................................102 Duplex Inverter Motor ................................................................................................103 Duplex Control Board ................................................................................................103
Other Replacements .....................................................................................................104 Quenching Lamp .......................................................................................................104 High-Voltage Power Supply Board ............................................................................104 BICU (Base-Engine Image Control Unit) ...................................................................105 Main Motor.................................................................................................................105 Rear Exhaust Fan (B269/B277 Only) ........................................................................106 Left Exhaust Fan .......................................................................................................106 PSU (Power Supply Unit) ..........................................................................................107 Gearbox.....................................................................................................................108
Copy Adjustments Printing/Scanning .............................................................................111 Printing .......................................................................................................................111 Scanning.................................................................................................................... 113 ADF Image Adjustment.............................................................................................. 114
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Troubleshooting ................................................................................................................ 116 Service Call Conditions ................................................................................................. 116
Summary ................................................................................................................... 116 SC Code Descriptions ............................................................................................... 117
Electrical Component Defects .......................................................................................133 Sensors .....................................................................................................................133 Switches ....................................................................................................................135
Blown Fuse Conditions .................................................................................................137 LED Display ..................................................................................................................138
BICU..........................................................................................................................138 Service Tables .................................................................................................................. 139
Service Program Mode .................................................................................................139 How to Enter the SP Mode ........................................................................................139
SP Mode Tables ............................................................................................................141 SP1-XXX (Feed)........................................................................................................141 SP2-XXX (Drum) .......................................................................................................144 SP4-XXX (Scanner)...................................................................................................150 SP5-XXX (Mode) .......................................................................................................156 SP6-XXX (Peripherals) ..............................................................................................159 SP7-XXX (Data Log)..................................................................................................161 SP8-XXX (History) .....................................................................................................165 SP9-XXX (Etc.)..........................................................................................................170
Using SP Modes ...........................................................................................................171 Adjusting Registration and Magnification................................................................... 171 ID Sensor Error Analysis (SP 2221)...........................................................................172 Display APS Data (SP 4301 1) ..................................................................................173 Memory Clear ............................................................................................................174 Input Check (SP 5803) ..............................................................................................176 Output Check (SP 5804)............................................................................................179 Serial Number Input (SP 5811) ..................................................................................181 NVRAM Data Upload/Download (SP 5824/5825) ...................................................... 181 Firmware Update Procedure......................................................................................183 Test Pattern Print (SP 5902 1) ...................................................................................187 Paper Jam Counters (SP 7504).................................................................................189 SMC Print (SP 5990) .................................................................................................190 Original Jam History Display (SP 7508).....................................................................190
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ADF APS Sensor Output Display (SP 6901)..............................................................191 Detailed Section Descriptions ...........................................................................................193
Overview .......................................................................................................................193 Component Layout ....................................................................................................193 Paper Path.................................................................................................................194 Drive Layout ..............................................................................................................195
Board Structure .............................................................................................................196 Block Diagram ...........................................................................................................196 BICU (Base Engine and Image Control Unit).............................................................197 SBU (Sensor Board Unit)...........................................................................................197
Copy Process Overview................................................................................................198 Scanning .......................................................................................................................200
Overview....................................................................................................................200 Scanner Drive............................................................................................................201 Original Size Detection in Platen Mode ..................................................................... 202
Image Processing .........................................................................................................205 Overview....................................................................................................................205 SBU (Sensor Board Unit)...........................................................................................206 IPU (Image Processing Unit) .....................................................................................207 Video Control Unit (VCU)...........................................................................................218
Laser Exposure .............................................................................................................219 Overview....................................................................................................................219 Auto Power Control (APC).........................................................................................220 LD Safety Switch .......................................................................................................221
Photoconductor Unit (PCU)...........................................................................................222 Overview....................................................................................................................222 Drive ..........................................................................................................................223
Drum Charge.................................................................................................................224 Overview....................................................................................................................224 Charge Roller Voltage Correction ..............................................................................225 ID Sensor Pattern Production Timing ........................................................................226 Drum Charge Roller Cleaning....................................................................................226
Development .................................................................................................................227 Overview....................................................................................................................227 Drive ..........................................................................................................................228 Developer Mixing.......................................................................................................228
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Development Bias .....................................................................................................229 Toner Supply..............................................................................................................230 Toner Supply Mechanism ..........................................................................................231 Toner Density Control ................................................................................................231 Toner Supply in Abnormal Sensor Conditions............................................................235 Toner Near End/End Detection and Recovery ...........................................................236
Drum Cleaning and Toner Recycling.............................................................................238 Drum Cleaning...........................................................................................................238 Toner Recycling .........................................................................................................239
Paper Feed ...................................................................................................................240 Overview....................................................................................................................240 Paper Feed Drive Mechanism ...................................................................................241 Paper Feed and Separation Mechanism ...................................................................241 Paper Lift Mechanism................................................................................................242 Paper End Detection .................................................................................................242 Paper Size Detection.................................................................................................243 Side Fences...............................................................................................................245 Paper Registration.....................................................................................................245
Image Transfer and Paper Separation ..........................................................................247 Overview....................................................................................................................247 Image Transfer Current Timing ..................................................................................248 Transfer Roller Cleaning............................................................................................249 Paper Separation Mechanism ...................................................................................250
Image Fusing and Paper Exit ........................................................................................251 Overview....................................................................................................................251 Fusing Unit Drive and Release Mechanism...............................................................252 Fusing Entrance Guide Shift......................................................................................253 Pressure Roller..........................................................................................................254 Fusing Temperature Control ......................................................................................254 Overheat Protection...................................................................................................256
Duplex Unit....................................................................................................................258 Overall .......................................................................................................................258 Drive Mechanism.......................................................................................................259 Basic operation..........................................................................................................259 Feed In and Exit Mechanism .....................................................................................262
Energy Saver Modes of Basic Machines.......................................................................263
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Overview....................................................................................................................263 AOF ...........................................................................................................................264 Timers........................................................................................................................264 Recovery ...................................................................................................................264
Energy Saver Modes of GDI Machines .........................................................................265 Overview....................................................................................................................265 AOF ...........................................................................................................................266 Timers........................................................................................................................266 Recovery ...................................................................................................................266
Specifications.................................................................................................................... 267 General Specifications ..................................................................................................267 Supported Paper Sizes .................................................................................................271
Original Size Detection ..............................................................................................271 Paper Feed and Exit ..................................................................................................273
Machine Configuration ..................................................................................................276 Optional Equipment.......................................................................................................278
ARDF.........................................................................................................................278 ADF ...........................................................................................................................278 One-Tray Paper Tray Unit..........................................................................................279 Two-Tray Paper Tray Unit ..........................................................................................280 One-Bin Tray .............................................................................................................280
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Read This First
Safety Notices and Symbols & Abbreviations
Important Safety Notices
Prevention of Physical Injury
1. Before disassembling or assembling parts of the copier and peripherals,
make sure that the power cord is unplugged.
2. The wall outlet should be near the copier and easily accessible.
3. Note that some components of the copier and the paper tray unit are
supplied with electrical voltage even if the main power switch is turned off.
4. If a job has started before the copier completes the warm-up or initializing
period, keep hands away from the mechanical and electrical components
because the starts making copies as soon as the warm-up period is
completed.
5. The inside and the metal parts of the fusing unit become extremely hot while
the copier is operating. Be careful to avoid touching those components with
your bare hands.
Health Safety Conditions
Toner and developer are non-toxic, but if you get either of them in your eyes by accident, it
may cause temporary eye discomfort. Try to remove with eye drops or flush with water as first
aid. If unsuccessful, get medical attention.
Observance of Electrical Safety Standards
The copier and its peripherals must be installed and maintained by a customer service
representative who has completed the training course on those models.
Safety and Ecological Notes for Disposal
1. Do not incinerate toner bottles or used toner. Toner dust may ignite
suddenly when exposed to an open flame.
2. Dispose of used toner, developer, and organic photoconductors in
accordance with local regulations. (These are non-toxic supplies.)
3. Dispose of replaced parts in accordance with local regulations.
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Laser Safety
The Center for Devices and Radiological Health (CDRH) prohibits the repair of laser-based
optical units in the field. The optical housing unit can only be repaired in a factory or at a
location with the requisite equipment. The laser subsystem is replaceable in the field by a
qualified Customer Engineer. The laser chassis is not repairable in the field. Customer
engineers are therefore directed to return all chassis and laser subsystems to the factory or
service depot when replacement of the optical subsystem is required.
Use of controls, or adjustment, or performance of procedures other than
those specified in this manual may result in hazardous radiation exposure.
WARNING FOR LASER UNIT
WARNING: Turn off the main switch before attempting any of the procedures in the Laser Unit section. Laser beams can seriously damage your eyes. CAUTION MARKING:
Symbols and Abbreviations This manual uses several symbols and abbreviations. The meaning of those symbols and
abbreviations are as follows:
See or Refer to
Clip ring
Screw
Connector
SEF Short Edge Feed
LEF Long Edge Feed
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Installation
Installation Requirements
Before installing options, please do the following:
If there is a printer option in the machine, print out all data in the printer buffer.
Turn off the main switch and disconnect the power cord, the telephone line, and
the network cable.
Environment
–Temperature and Humidity Chart–
Temperature Range: 10C to 32C (50F to 89.6F)
Humidity Range: 15% to 80% RH
Ambient Illumination: Less than 1,500 lux (do not expose to direct sunlight)
Ventilation: 3 times/hr/person or more
Ambient Dust: Less than 0.075 mg/m3 (2.0 x 10-6 oz/yd3)
Avoid areas exposed to sudden temperature changes:
1) Areas directly exposed to cool air from an air conditioner.
2) Areas directly exposed to heat from a heater.
Do not place the machine in areas where it can get exposed to corrosive gases.
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Do not install the machine at any location over 2,000 m (6,500 ft.) above sea level.
Place the machine on a strong and level base. (Inclination on any side should be no
more than 5 mm.)
Do not place the machine where it is subjected to strong vibrations.
Machine Level
Front to back: Within 5 mm (0.2") of level
Right to left: Within 5 mm (0.2") of level
Minimum Space Requirements
Place the copier near the power source, providing clearance as shown:
A (front): 750 mm (30")
B (left): 150 mm (6")
C (rear): 50 mm (2")
D (right): 250 mm (10")
The recommended 750 mm front space is sufficient to allow the paper tray to be pulled out.
Additional front space is required to allow operators to stand at the front of the machine.
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Power Requirements
Make sure that the wall outlet is near the machine and easily accessible. After.
completing installation, make sure the plug fits firmly into the outlet.
Avoid multi-wiring.
Be sure to ground the machine
Input voltage:
North and South America, Taiwan: 110 – 120 V, 60 Hz, 12 A
Europe, Asia: 220 – 240 V, 50/60 Hz, 7 A
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Copier Installation
Power Sockets for Peripherals
Make sure to plug the cables into the correct sockets.
[A]: Socket for ADF/ARDF (Rated voltage output max. DC24 V)
[B]: Socket for paper tray unit (Rated voltage output max. DC24 V)
Accessory Check
Check that you have the accessories in this list.
Basic Machines
No. Description Q’ty
1 NECR-English /Multi-language (-17, -27,-19, -29) 1
2 EU Safety Sheet (-27, -22,-24, -26) 1
3 Laser Decal (-27, -22,-24, -26, -19, -28, -29) 1
4 Model Name Plate (-22,-29) 1
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GDI Machines
No. Description Q’ty
1 NECR-English /Multi-language (-19, -29) 1
2 Laser Decal (-19, -29) 1
3 Model Name Plate (-19, -29) 1
4 Operating Instructions (-19, -29) 1
5 General Setting Guide (-19, -29) 1
6 Copy Reference (-19, -29) 1
7 Printer/Scanner Reference (-19, -29) 1
8 Network Reference (-19, -29) 1
9 Quick Guide Copy Edition (-19, -29) 1
10 Quick Guide Printer/Scanner Edition (-19, -29) 1
11 Manual for this machine (-19, -29) 1
12 Safety Information (-19, -29) 1
Installation Procedure
Unplug the machine power cord before starting the following procedure.
1. Remove filament tape and other padding.
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2. Open the front door and remove the toner bottle holder [A]
3. Open the right door [B], and remove the PCU (photoconductor unit) [C].
4. Separate the PCU into the upper part and the lower part ( x 5). 5. Put a sheet of paper on a level surface and place the upper part on it.
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This prevents foreign material from getting on the sleeve rollers
6. Distribute a pack of developer [D] to all openings equally.
Do not spill the developer on the gears [E]. If you have spilled it, remove the
developer by using a magnet or magnetized screwdriver.
Do not turn the gear [E] too much. The developer may spill.
7. Reassemble the PCU and reinstall it. 8. Shake the toner bottle [F] several times. (Do not remove the bottle cap [G] before
you shake the bottle.) 9. Remove the bottle cap [G] and install the bottle on the holder. (Do not touch the
inner cap [H].) 10. Set the holder (with the toner bottle) in the machine.
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11. Pull out the paper tray [I] and turn the paper size dial to the appropriate size.
Adjust the positions of the end and side guides.
To move the side guides, release the green lock on the rear side guide.
12. Install the optional ARDF, ADF, or platen cover. 13. Plug in the main power cord and turn on the main switch. 14. Activate the SP mode and execute "Devlpr Initialize" (SP 2214 1). 15. Wait until the message "Completed" shows (about 45 seconds). 16. Activate the User Tools and select the menu "Language." 17. Specify a language. This language is used for the operation panel. 18. Load the paper in the paper tray and make a full size copy, and make sure the
side-to-side and leading edge registrations are correct.
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Platen Cover Installation
Accessory Check
Check that you have the accessories indicated below.
No. Description Q’ty
1 Stepped Screw 2
Installation Procedure
Unplug the machine power cord before starting the following procedure.
Install the platen cover ( x 2).
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ARDF Installation
Accessory Check
Check the quantity and condition of the accessories against the following list.
No. Description Q’ty
1 Scale Guide 1
2 DF Exposure Glass 1
3 Stud Screw 2
4 Knob Screw 2
5 Original Size Decal 2
6 Screwdriver Tool 1
7 Attention Decal—Top Cover 1
8 Stamp Cartridge 1
9 Installation Procedure 1
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Installation Procedure
Unplug the copier power cord before starting the following procedure.
1. Remove the strips of tape.
2. Remove the left scale [A] ( x 2). 3. Place the DF exposure glass [B] on the glass holder. Make sure that the white
mark [C] is on the bottom at the front end. 4. Peel off the backing [D] of the double-sided tape attached to the rear side of the
scale guide [E], then install the scale guide ( x 2 [removed in step 2]). 5. Install the two stud screws [F]. 6. Mount the ARDF on the copier, and then slide it to the front.
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7. Secure the ARDF unit with the knob screws [G]. 8. Connect the cable [H] to the copier.
9. Attach the appropriate original size decal [I] as shown. 10. Attach an attention decal to the top cover.
The attention decals in the package are written in different languages.
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11. Open the ARDF [J]. 12. Install the stamp cartridge [K] to the ARDF. 13. Make a full size copy, and check that the side-to-side and leading edge
registrations are correct. If they are not, adjust the side-to-side and leading edge registrations. ( p.114)
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ADF Installation
Accessory Check
Check the quantity and condition of the accessories against the following list.
No. Description Q’ty
1 Scale Guide 1
2 DF Exposure Glass 1
3 Stud Screw 2
4 Fixing Screw 2
5 Original Size Decal 2
6 Screwdriver Tool 1
7 Attention Decal—Top Cover 1
8 Stamp Cartridge 1
9 Installation Procedure 1
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Installation Procedure
Unplug the machine power cord before starting the following procedure.
1. Remove the strips of tape.
2. Remove the left scale [A] ( x 2). 3. Place the DF exposure glass [B] on the glass holder. Make sure that the white
mark [C] is on the bottom at the front end. 4. Peel off the backing [D] of the double-sided tape attached to the rear side of the
scale guide [E], then install the scale guide ( x 2 [removed in step 2]). 5. Install the two stud screws [F]. 6. Mount the ADF on the copier, and then slide it to the front.
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7. Secure the ADF unit with the fixing screws [G]. 8. Connect the cable [H] to the copier. 9. Attach the appropriate scale decal [I] as shown.
10. Attach an attention decal to the top cover.
The attention decals in the package are written in different languages.
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11. Open the ADF [J]. 12. Install the stamp cartridge [K] to the ADF 13. Turn the main power switch on. Then check if the document feeder works
properly. 14. Make a full size copy, and check that the side-to-side and leading edge
registrations are correct. If they are not, adjust the side-to-side and leading edge registrations. ( p.114).
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Two-tray Paper Tray Unit Installation
Accessory Check
Check the quantity and condition of the accessories against the following list.
No. Description Q’ty
1 Screw – M4x10 10
2 Unit Holder 2 x 2 pieces
3 Adjuster 1
4 Unit Holder 2
Installation Procedure
If the optional printer unit is installed:
Print out all data in the printer buffer.
Disconnect the network cable.
Unplug the machine power cord before starting the following procedure.
1. Remove the strips of tape. Make sure that you have removed all the strips of tape
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and all the pieces of cardboard.
After removing the tape that secures the peripheral components and cardboard
to the paper tray, make sure that there is no tape and/or tape reside remaining
on the tray.
2. Attach the adjuster [A] to the base plate as shown.
This step is not necessary if a cabinet is installed.
3. Remove the cover [B] (1 rivet).
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4. Set the copier on the paper tray unit.
Before placing the copier on the paper tray unit, make sure that the harness [C]
is safe. The paper tray unit does not function properly if the harness is damaged.
5. One-tray copier model (B268/B276): Remove the 1st tray cassette [D]. Two-tray copier models (B269/B277): Remove the 2nd tray cassette [D].
6. Install the two screws [E]. 7. Reinstall the tray cassette.
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8. Install the two brackets [F] ( x 1 (each)) 9. Connect the connecting harness [G] to the copier.
There are cutouts for the plugs on both sides. The left side has one cutout, and
the right side has two.
10. Reinstall the cover removed in step 3 (1 rivet).
11. Install the four brackets with long supports [H] and covers [I](2 screws each).
These long supports prevent the unit from tipping over.
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12. Rotate the adjuster (installed at step 2) to fix the machine in place.
If a cabinet is installed, this step is unnecessary.
13. Load the paper in the paper trays and make full size copies from each tray. Check if the side-to-side and leading edge registrations are correct. If they are not, adjust the registrations ( p.111)
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One-tray Paper Tray Unit Installation
Accessory Check
Check the quantity and condition of the accessories against the following list.
No. Description Q’ty
1 Screw – M4 x 10 2
2 Stepped Screw – M4 x 10 2
3 Unit Holder 2
Installation Procedure
If the optional printer unit is installed:
Print out all data in the printer buffer.
Disconnect the network cable.
Unplug the machine power cord before starting the following procedure.
1. Remove the strips of tape. Make sure that you have removed all the strips of tape
and all the pieces of cardboard.
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2. Remove the cover [A] (1 rivet).
Before placing the copier on the paper tray unit, make sure that the harness [B]
is safe. The paper tray unit does not function properly if the harness is damaged.
3. Set the copier on the paper tray unit.
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4. One-tray copier model (B268/B276): Remove the 1st tray cassette [C].
Two-tray copier models (B269/B277): Remove the 2nd tray cassette [C].
5. Install the two screws [D]. 6. Reinstall the tray cassette.
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7. Install the two brackets [E]. (1 stepped screw each). 8. Connect the connecting harness [F] to the copier.
There are cutouts for the plugs on both sides. The left side has one cutout, and
the right side has two.
9. Reinstall the cover removed in step 2. 10. Load the paper in the paper tray and make full size copies from tray. Check if the
side-to-side and leading edge registrations are correct. If they are not, adjust the registrations ( p.111).
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One-Bin Tray Installation
Accessory Check
Check the quantity and condition of the accessories.
No. Description Q’ty
1 Installation procedure 1
2 One-bin sorter 1
3 Exit tray 1
4 Tapping screw M3 x 6 1
Installation Procedure
Unplug the machine power cord before starting the following procedure.
1. Remove the inverter tray [A]. 2. Remove the rail [B] (2 knob screws). 3. Remove the cover [C] (1 rivet).
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4. Open the front cover [D]. 5. Remove the front right cover [E] ( x 1). 6. Disconnect the connector [F]. 7. Cut the front cover as shown, to make an opening [G] for the 1-bin tray.
8. Install the 1-bin tray [H]. 9. Make sure the connectors [I] are connected firmly. 10. Fasten the screw. 11. Connect the connector [J] that you removed in step 6.
Make sure that the connector is connected
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12. Reattach the front right cover [K]. 13. Close the front cover [L]. 14. Install the exit tray [M] as follows:
Keep the front end higher than the rear end.
Push the left hook into the opening in the copier.
Push the right hook into the opening in the copier.
15. Pull the support [N] out of the left end of the exit tray. 16. Insert the support into the left end of the paper exit tray [O] (of the copier). 17. Turn the main switch on. 18. Check the operation.
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Anti-condensation Heater Installation
Unplug the machine power cord before starting the following procedure.
1. Remove the exposure glass. 2. Remove the left cover. 3. Pass the connector [A] through the opening [B]. 4. Install the anti-condensation heater [C], as shown. 5. Join the connectors [A, D]. 6. Clamp the harness with the clamp [E]. 7. Reinstall the left cover and exposure glass.
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Tray Heaters
Unplug the machine power cord before starting the following procedure.
Upper Tray Heater
1. Remove the 1st tray cassette [A]. 2. Remove the rear cover.
3. Pass the connector [B] through the opening [C] and install the tray heater [D] ( x 1).
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4. Install the relay harness [E]. 5. Fix the harness with the clamp [F]. 6. Reinstall the 1st tray cassette and the rear cover.
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Lower Tray Heater (Two-tray Model Only)
1. Remove the 2nd tray cassette [A]. 2. Remove the rear lower cover. 3. B277/B269 only: Remove the DCB [B] with bracket ( x 4, x 3). 4. Pass the connector [C] through the opening [D] and install the tray heater [E] ( x
1). 5. Join the connectors [F]. 6. Reinstall the 2nd tray cassette, DCB, and rear lower cover.
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Tray Heaters For The Optional Paper Feed Units
1. Remove the rear cover [A].for the paper tray unit
One-tray paper
feed unit:
Two-tray paper
feed unit:
2. Two-tray unit only: Remove the cable guide [B]. 3. Install the clamps [C].
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One-tray paper
feed unit:
Two-tray paper
feed unit:
4. Pass the connector [D] through the opening [E]. 5. Install the tray heater [F] ( x 1)
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One-tray paper
feed unit:
Two-tray paper
feed unit:
6. Clamp the cables [G], as shown. 7. Join the connectors [H]. 8. Two-tray unit only: Reinstall the cable guide. 9. One-tray copier model (B268/B276): Remove the 1st tray cassette.
Two-tray copier models (B269/B277): Remove the 2nd tray cassette.
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10. Remove the two screws [I] and install the two hexagonal socket screws [J]. 11. Reinstall the 1st tray/2nd tray(s) and rear cover.
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Key Counter Installation
Unplug the machine power cord before starting the following procedure.
1. Remove the left cover. 2. Remove the rear cover. 3. Cut the cap [A] with nippers. 4. Punch out the small hole [B] using a screwdriver. 5. Hold the key counter plate nuts [C] on the inside of the key counter bracket [D]
and insert the key counter holder [E]. 6. Secure the key counter holder to the bracket ( x 2). 7. Install the key counter cover [F] ( x 2).
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8. Connect the connector [G] to CN126 on the BICU. 9. Hold the harness with the clamps [H][I][J].
The relay harness is not included in the key counter bracket accessories
10. Join the relay harness [K] with the connector [L]. 11. Reinstall the rear cover.
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12. Pass the relay harness through the opening [M] and reinstall the left cover. 13. Install the stepped screw [N]. 14. Join the connectors [O]. 15. Pass the joined connectors through the opening of the key counter holder
assembly [P], and put the connectors inside the assembly. 16. Hook the key counter holder assembly onto the stepped screw [N]. Check that the
harness is not caught between the left cover and the key counter holder assembly.
17. Secure the key counter holder assembly with the screw [Q].
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GDI Expansion
Accessory Check
No. Description Q’ty
1 Cover-CPS NA 1
2 Cover-CPS EU 1
3 Ferrite Core (B866 only) 1
4 Tapping Screw-M3X6 6
5 Sheet-EULA 1
6 Seal-Caution 1
7 Installation Procedure 1
Installing Expansion Component
Unplug the machine power cord before starting the following procedure.
1. Remove the rear cover [A] ( x 6). 2. Remove one screw [B] from the BICU.
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3. Connect the controller box [D] to the BICU. Make sure that the BICU [E] is not
damaged and that the three openings [F][G][H] hold the controller box. 4. Fasten the screws ( x 7).
5. Attach the ferrite core [I] to the network cable [J]. The end of the ferrite core must
be about 10 cm (4") from the end of the cable [K].
This procedure is only for machines with the B866 option.
6. Re-attach the rear cover [A] ( x 6).
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Installing Panels and Keys
1. Remove the dummy cover [A] from the operation panel
2. Install the printer/scanner panel [B] on the operation panel.
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Preventive Maintenance
PM Tables
After preventive maintenance work, reset the PM counter (SP 7804 1).
PM intervals (60k, 80k, and 120K) indicate the number of prints.
Key: AN: As necessary C: Clean R: Replace L: Lubricate I: Inspect
Optics
EM 60k 120k AN NOTE
Reflector C Optics cloth
1st mirror C C Optics cloth
2nd mirror C C Optics cloth
3rd mirror C C Optics cloth
Scanner guide rails C Do not use alcohol.
Platen cover
I C
Replace the platen sheet if
necessary.
Blower brush or alcohol
Exposure glass C C Blower brush or alcohol
Toner shield glass C Blower brush
APS sensors C Blower brush
Drum Area
EM 60k 120k AN NOTE
PCU I
Drum R
Developer R
Charge roller R
Cleaning brush (charge roller) R
Cleaning blade (OPC drum) R
Pick-off pawls (OPC drum) R
Transfer roller R
ID sensor C C Blower brush
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Paper Feed
EM 60k 120k AN NOTE
Paper feed roller (each tray) C R C Clean with water or alcohol.
Friction pad (each tray) C R C Clean with water or alcohol.
Bottom-plate pad (each tray) C C Clean with water or alcohol.
Paper feed roller (bypass tray) C C Clean with water or alcohol.
Friction pad (bypass tray) C C Clean with water or alcohol.
Bottom-plate pad (by-pass tray) C C Clean with water or alcohol.
Registration rollers C C Clean with water or alcohol.
Relay rollers C C Clean with water or alcohol.
Paper feed guides C C Clean with water or alcohol.
Paper-dust Mylar C C Clean with water or alcohol.
Fusing Unit
EM 60k 120k AN NOTE
Hot roller R
Pressure roller R
Pressure roller cleaning roller R
Hot roller bushings I
Pressure-roller bushing R
Hot roller stripper pawls R C Dry cloth
Thermistor C C Dry cloth
Cleaning roller bushing C C Dry cloth
ADF/ARDF
80k AN NOTE
Feed belt R C Clean with water or alcohol.
Separation roller R C Clean with water or alcohol.
Pick-up roller R C Clean with water or alcohol.
Stamp R Replace when necessary.
White plate C Clean with water or alcohol.
DF exposure glass C Clean with water or alcohol.
Platen cover C Clean with water or alcohol.
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Paper Tray Unit
60k 120k AN NOTE
Paper feed rollers R C Dry or damp cloth
Bottom-plate pads C C Dry cloth
Paper-feed guides C C Clean with water or alcohol.
Friction pads R C Dry or damp cloth
Relay clutch (B384 only) I
Feed clutches (B384 only) I
Relay roller (B384 only) C C Dry cloth
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How to Reset the PM Counter After preventive maintenance work, reset the PM counter (SP 7804 1) as follows.
1. Activate the SP mode ( p.139).
2. Select SP 7804 1 (Reset–PM Counter).
3. Press the OK key [A]. The message "Execute" shows.
4. Press the button [B] below the message "Execute."
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5. The messages "Execute?" followed by "Cancel" and "Execute" show.
6. To reset the PM counter, press the button [C] below the message "Execute."
7. Wait until the message "Completed" shows.
8. Quit the SP mode.
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Replacement and Adjustment
General Cautions Do not turn off the main switch while any of the electrical components are active. Doing so
may result in damage to units (such as the PCU) as they are pulled out or replaced.
PCU (Photoconductor Unit)
The PCU consists of the OPC drum, charge roller, development unit, and cleaning
components. Observe the following precautions when handling the PCU.
1. Never touch the drum surface with bare hands. If the drum surface is dirty or
if you have accidentally touched it, wipe it with a dry cloth, or clean it with
wet cotton and then wipe it dry with a cloth.
2. Never use alcohol to clean the drum. Alcohol will dissolve the drum surface.
3. Store the PCU in a cool dry place.
4. Do not expose the drum to corrosive gases (ammonia, etc.).
5. Do not shake a used PCU, as this may cause toner and developer to spill
out.
6. Dispose of used PCU components in accordance with local regulations.
Transfer Roller
1. Never touch the surface of the transfer roller with bare hands.
2. Be careful not to scratch the transfer roller, as the surface is easily
damaged.
Scanner Unit
1. Use alcohol or glass cleaner to clean the exposure and scanning glass.
This will reduce the static charge on the glass.
2. Use a blower brush or a water-moistened cotton pad to clean the mirrors
and lenses.
3. Make sure to not bend or crease the exposure lamp’s ribbon cable.
4. Do not disassemble the lens unit. This will cause the lens and copy image to
get out of focus.
5. Do not turn any of the CCD positioning screws. This will put the CCD out of
position.
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Laser Unit
1. Do not loosen or adjust the screws securing the LD drive board on the LD
unit. This will put the LD unit out of adjustment.
2. Do not adjust the variable resistors on the LD unit. These are adjusted at the
factory.
3. The polygonal mirror and F-theta lens are very sensitive to dust.
4. Do not touch the toner shield glass or the surface of the polygonal mirror
with bare hands.
Fusing Unit
1. After installing the fusing thermistor, make sure that it is in contact with the
hot roller and that the roller can rotate freely.
2. Be careful to avoid damage to the hot roller stripper pawls and their tension
springs.
3. Do not touch the fusing lamp and rollers with bare hands.
4. Make sure that the fusing lamp is positioned correctly and that it does not
touch the inner surface of the hot roller.
Paper Feed
1. Do not touch the surface of the paper feed rollers.
2. To avoid misfeeds, the side and end fences in each paper tray must be
positioned correctly so as to align with the actual paper size.
You must run SP 2214 to initialize the TD sensor after you install a new PCU. After
starting initialization, be sure to wait for it to reach completion (wait for the motor to
stop) before you re-open the front cover or turn off the main switch.
If the optional tray heater or optics anti-condensation heater is installed, keep the
machine's power cord plugged in even while the main switch is off, to keep the
heater(s) energized.
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Special Tools and Lubricants
Part Number Description Q’ty
A0069104 Scanner Positioning Pins (4 pins/set) 1 set
A2929500 Test Chart S5S (10 pcs/set) 1 set
VSSM9000 FLUKE 87 Digital Multimeter 1
N8036701 4MB Flash Memory Card 1
A2579300 Grease Barrierta S552R 1
52039502 Grease G-501 1
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Exterior Covers & Operation Panel
Rear Cover
1. Unplug the DF cable [A] (if installed). 2. Rear cover [B] ( x 6)
Rear Lower Cover (Two-tray Models Only)
1. Rear cover (see above) or tray harness cover [A] (1 rivet). 2. Rear lower cover [B] ( x 2)
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Copy Tray
1. Copy tray [A] ( x 2)
Upper Covers
1. Platen Cover, ARDF, or ADF (if installed) 2. Rear cover 3. Left upper cover [A] ( x 2) 4. Front upper left cover [B] ( x 3) 5. Operation panel [C] ( x 4, x 1) 6. Right upper cover [D] ( x 1, 3 hooks) 7. Push the cover to the rear side to release the hooks. 8. Top rear cover [E] ( x 1)
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Left Cover
1. Left cover [A] ( x 3)
Front Cover
1. Pull out the (top) paper tray. 2. Open the front door [A]. 3. Front cover [B] ( x 4)
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Front Right Cover
1. Open the front door [A]. 2. Front right cover [B] ( x 1)
Right Rear Cover
1. Right upper cover ( p.55) 2. Open the duplex unit (B269/B277 only). 3. Right rear cover [A] ( x 1)
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Right Door (Duplex Unit (B269/B277))
1. Right rear cover (see above) 2. Open the right door [A]. 3. Open the clamps [B] and disconnect the two connectors [C] or three connectors
(B269/B277). 4. Right door
By-pass Tray
1. Right rear cover (above) 2. Open the right door. 3. Release the by-pass tray cable from the clamps (see [B] on the preceding
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procedure) and disconnect the connector (5-pin connector with colored wires). 4. Cable holder [A] (B269/B277 only) 5. Front-side clip ring [B] 6. Front-side pin [C] (You can push the pin from behind the right door.) 7. Front-side tray holder arm [D] 8. Remove the rear-side clip ring, pin, and tray holder arm in the same manner. 9. By-pass tray [E]
Left Lower Cover (Two-tray Models Only)
1. Left lower cover [A] ( x 2)
Right Lower Cover (Two-tray Models Only)
1. Right lower cover [A] (1 pin)
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Platen Cover Sensor
1. Top rear cover 2. Platen cover sensor [A] ( x 1)
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Scanner Unit
Exposure Glass/DF Exposure Glass
- Exposure Glass - 1. Front upper left cover ( p.55) 2. Left scale [A] ( x 2) 3. Rear scale [B] ( x 3) 4. Exposure glass [C]
Make sure that the mark is at the rear left corner, and that the left edge is aligned
to the support on the frame when you reinstall the exposure glass.
- DF Exposure Glass - 1. Front upper left cover ( p.55) 2. Left scale [A] 3. DF exposure glass [D]
Make sure that the mark [E] is on the bottom at the front end when reinstall the
exposure glass.
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Lens Block
Do not touch the paint-locked screws on the lens block. The position of the lens
assembly (black part) is adjusted before shipment.
Do not grasp the PCB or the lens assembly when you handle the lens block. The
lens assembly may slide out of position.
1. Exposure glass ( p.61) 2. Lens cover [A] ( x 5) 3. Disconnect the flat cable [B]. 4. Lens block [C] ( x 4).
Adjust the image quality ( p.111) after you install a new lens block.
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Lamp Stabilizer Board And Exposure Lamp
1. Operation panel ( p.55) 2. Exposure glass ( p.61) 3. Slide the first scanner to a position where the front end of the lamp is visible. 4. Place one hand under the lamp stabilizer board [A] and release the hook [B]. 5. Lamp stabilizer board ( x 2) 6. Press the plastic latch [C] and push the front end of the lamp toward the rear. 7. Lamp [D] (with the cable)
Original Width/Length Sensor
1. Exposure glass ( p.61) 2. Original width sensor [A] ( x 1, x 1) 3. Lens block ( p.62) 4. Original length sensor [B] ( x 1, x 1)
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- Sensor Positions - Sensor positions vary according to regions as shown below.
- Sensor Positions for China Model (8K/16K) - This procedure is for China models only. You must rearrange the positions of the original
width and length sensors for the copier to detect the following original sizes:
8K SEF (270 x 390 mm)
16K SEF (195 x 270 mm)
16K LEF (270 x 195 mm)
After you have rearranged the positions, the sensors work as listed in the table. Rearrange
the sensor positions as follows:
Original Size Length Sensors Width Sensors
8K-SEF L1 L2 W1 W2
16K-SEF X X X O
16K-LEF X O O O
16K-SEF O O X O
1. Specify SP mode settings: Select SP 4305 1, and specify 2 (=Yes). The machine will detect 8K/16K rather than
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A3/A4/B4/B5 (A3-SEF/B4-SEF 8K-SEF; B5-SEF/A4-SEF 16K-SEF;
B5-LEF/A4-LEF 16K-LEF).
2. Turn off the main switch. 3. Exposure glass ( p.61). 4. Original width/length sensors [A] [B] 5. Rearrange the sensor positions [C] [D]. 6. Turn on the main switch and check the operations.
Scanner Motor
1. Left upper cover, front upper left cover, operation panel, top rear cover ( p.55) 2. Exposure glass ( p.61) 3. Rear exhaust fan [A] (B269/B277 only) 4. Scanner motor [B] ( x 3, x 1, 1 spring, 1 belt)
Install the belt first, and then set the spring when you reassemble. Fasten the
leftmost screw (viewed from the rear), and fasten the other two screws.
Adjust the image quality after you install the motor.
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Scanner Home Position Sensor
1. Left upper cover, top rear cover ( p.55) 2. Exposure glass, DF exposure glass (if installed) ( p.61) 3. Disconnect the connector [A]. 4. Scanner left lid [B] ( x 7) 5. Sensor tape [C]. 6. Scanner home position sensor [D]
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Adjusting Scanner Positions
Grasp the front and rear ends (not the middle) of the first scanner when you
manually move it. The first scanner may be damaged if you press, push, or pull its middle part.
- Overview - Adjust the scanner positions when the first scanner [C] and second scanner [B] are not
parallel with the side frames [A], or, when you have replaced one or more of the scanner
belts.
To adjust the scanner positions, do either of the following:
Adjust the belt contact points on the first scanner. (See " Adjusting the First Scanner
Contact Points" below.) Adjust the belt contact points on the scanner bracket. (See ”Adjusting the Second
Scanner Contact Points" below.)
The two actions above have the same objectives--to align the following holes and marks:
The adjustment holes [H] [J] in the first scanner
The adjustment holes [H] [J] in the second scanner
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The alignment marks [G] [I] on the frames
The scanner positions are correct when these holes and marks are aligned.
- Adjusting the First Scanner Contact Points -
1. A(R)DF or platen cover 2. Operation panel, top rear cover ( p.55). 3. Exposure glass ( p.61) 4. Loosen the 2 screws [A] [F]. 5. Slide the 1st and 2nd scanners, or one of them, to align the following holes and
marks 6. The adjustment holes in the first scanner 7. The adjustment holes in the second scanner 8. The alignment marks on the frames 9. Insert the positioning tools [D] [E] through the holes and marks. 10. Check that the scanner belts [B] [C] [G] [H] are properly set between the bracket
and the 1st scanner. 11. Tighten the screws [A] [F]. 12. Remove the positioning tools. 13. Reassemble the machine and check the operation.
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- Adjusting the Second Scanner Contact Points -
1. A(R)DF or platen cover 2. Operation panel, top rear cover ( p.55). 3. Exposure glass ( p.61) 4. Rear exhaust fan [A] ( x 2) 5. Controller bracket [B] ( x 3) 6. Disconnect the platen-cover-sensor connector [C]. 7. Rear frame [D] ( x 7) 8. Scale bracket [E] ( x 2)
9. Loosen the 2 screws [F]. 10. Slide the 2nd scanner to align the following holes and marks
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11. The adjustment holes in the first scanner 12. The adjustment holes in the second scanner 13. The alignment marks on the frames 14. Insert the positioning tools [G] [H] through the holes and marks. 15. Check that the scanner belts are properly set in the brackets. 16. Remove the positioning tools. 17. Reassemble the machine and check the operation.
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Laser Unit
The laser beam can seriously damage your eyes. Be absolutely sure that the
main power switch is off and that the machine is unplugged before you access the laser unit.
Location Of Caution Decal
Toner Shield Glass
1. Open the front door.
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2. Lift the toner cartridge latch [A]. 3. Press the toner shield glass cover [B] to the left and pull it out. 4. Pull out the toner shield glass [C].
Laser Unit
1. Toner shield glass. ( p.71) 2. Copy tray ( p.55) 3. Pull out the (upper) paper tray. 4. Front cover ( p.56) 5. Laser unit [A] ( x 2, x 4)
The screw at the left front position [B] is longer than the other three.
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LD Unit
Do not touch the paint-locked screw [A]. The LD position is adjusted before
shipment.
1. Laser unit ( p.71) 2. LD unit [B] ( x 1)
Do not screw the LD unit in too tightly when you install it.
Polygonal Mirror Motor
1. Laser unit ( p.71)
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2. Two rubber bushings [A] 3. Laser unit cover [B] ( x 1) 4. Polygonal mirror motor [C] ( x 4) 5. After reassembling, adjust the image quality ( p.111).
Laser Unit Alignment Adjustment
Reinstall the copy exit tray before you turn the main switch on. The laser
beam may go out of the copier when the copy exit tray is not installed. The laser beam can seriously damage your eyes.
1. Start the SP mode. 2. Select SP 5902 1 and output the ‘Trimming Area’ pattern (pattern 10). 3. Make sure that the four corners of the pattern make right angles:
If they make right angles, you do not need to adjust the laser unit alignment.
If they do not make right angles, go on to the next step.
4. Check the screw position on the lever [B]. If the screw is in the hole [C], go on to the next step.
If the screw is in the slot [D], loosen the screw on the lever, loosen the four screws on
the laser unit, and go on to step 9.
The initial position of the screw is in hole [C].
5. Four screws in the laser unit ( p.71) 6. Remove the lever ( x 1), confirm the position of the hole beneath the slot [D],
and reinstall the lever.
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7. Install the screw (through the slot [D]) loosely into the hole beneath the slot (do not tighten the screw).
8. Install the four screws for the laser unit loosely (do not tighten the screws). 9. When you rotate the lever clockwise or counterclockwise by one notch of the
lever, the corners of the pattern shift by 0.4 mm (from the leading and trailing edges). See the trim pattern made in step 2, and find how much the corners should be shifted.
10. Tighten the screw [A]. 11. Tighten the screws on the laser unit. 12. Reinstall the copy tray. 13. Print the trim pattern and check the result. Do the procedure again if further
adjustment is required.
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PCU Section
PCU
1. Toner bottle with the holder [A] 2. Open the right door.
3. Press the latch [B] and pull out the PCU [C].
Do not touch the OPC drum surface with bare hands.
4. Load new developer ( p.80). 5. Do SP 2214 to reinitialize the TD sensor when you reassemble.
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Pick-off Pawls and Toner Density Sensor
Do not turn the PCU upside down. This causes toner and developer to spill out.
1. PCU ( Previous procedure) 2. Pawl [A]
Pull down the pawl and release the bottom end.
3. Toner density sensor [B] ( x 1)
The toner density sensor is taped to the bottom of the PCU. Pry it off with a
regular screwdriver
4. After reinstalling the pick-off pawls or toner density sensor, adjust the image quality ( p.81).
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OPC Drum
1. PCU ( p.76) 2. Front side piece [A] ( x 1) 3. Rear side piece [B] ( x 2, 1 coupling) 4. Separate the drum section [C] from the developer section [D].
To ensure that the left-side gears line up, keep the drum cover [E] closed when
reinserting the front side piece.
5. Pry out the drum retaining clip [F].
Install the clip in the same orientation (with the lip facing away from the drum
shaft) when you reassemble.
6. OPC drum [G] 7. When reassembling, adjust the image quality ( p.81).
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Charge Roller and Cleaning Brush
1. OPC Drum ( Previous procedure) 2. Holding pin [A] 3. Stepped screw [B] 4. Charge roller [C] and cleaning brush [D] (with the holders and springs)
Turn the gear [E] (as necessary) so that the rear holder [F] comes out.
5. When reassembling, adjust the image quality ( p.81).
Cleaning Blade
1. Drum charge roller ( Previous procedure) 2. Cleaning blade [B] ( x 2) 3. When reassembling, adjust the image quality ( p.81).
Reassembling
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Apply toner to the edge of the new cleaning blade when you replace the cleaning
blade. This prevents possible damage to the OPC drum and blade.
1. After installing the cleaning blade, remove some of the toner from
the old blade with your finger.
2. Apply the toner to the edge [A] of the new cleaning blade. Make
sure to apply the toner evenly along full length of the new cleaning
blade.
Developer
1. PCU ( p.76) 2. To let the toner fall to the development section, gently tap about eight different
spots on the top of the PCU with a screwdriver. Each spot must be approximately at an equal distance from the next spot.
3. Reinstall the PCU in the copier. 4. Turn the main switch on. 5. Open and close the front door and wait for the machine to rotate the development
roller for about 10 seconds. 6. Repeat the previous step two more times. 7. PCU ( p.76) 8. Separate the developer section from the OPC drum section ( p.78). 9. Top part [A] of the development unit ( x 5)
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Release the hook [B].
10. Set the coupling [C] back to the shaft. 11. Turn the coupling in the direction of the arrow [D] to remove developer from the
roller. 12. Turn the bottom part [E] over and rotate the gears to remove the developer. 13. Load new developer ( p.9). 14. When reassembling, execute SP 2214 to reinitialize the TD sensor.
Make sure no toner or developer stays on the gear. Clean the gears as
necessary with a blower brush, etc.
Be sure to replace the Mylar at the rear side in the correct position. (The Mylar
protects the gears at the rear side from falling toner).
After Replacement or Adjustment
Do the following procedure after replace or adjust any of the PCU components. This
procedure is not necessary when you replaced the whole PCU with a new one.
1. Take 5 sample copies. 2. If black dots (dropped toner) show on any of the copies, continue as follows. (If all
copies are clean, you don't need to do the following steps.) 3. Remove the PCU from the mainframe. 4. Tap the top of the PCU with a screwdriver at eight evenly spaced locations (two or
three taps at each spot), to knock the recycled toner down into the development section.
5. Put the PCU back into the mainframe. 6. Turn the main power on. Then open and close the door and wait for the machine
to rotate the development roller for 10 seconds. Then open and close the door two more times, so that total rotation time is 30 seconds.
7. Make some sky-shot copies (or solid black prints). If using A4 or 81/2" x 11" paper, make 4 copies/prints.
If using A3 or 11" x 17" paper, make 2 copies/prints.
To make solid black prints, use SP 5902 pattern 8.
Step 7 is required only after parts replacement or adjustment. You do not need
to make sky-shot (or solid black) copies after you replace the developer.
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Toner Supply Motor
1. Copy tray ( p.55) 2. Open the front door. 3. Toner bottle holder ( p.76) 4. Toner supply motor [A] ( x 1)
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Paper Feed Section
Paper Feed Roller
1. Paper cassette 2. Clip [A] 3. Push the shaft back through the opening, and tilt it up.
If the black plastic bushing [B] comes off, make sure you remount it when
reinstall the shaft.
4. Paper feed roller [C]
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Friction Pad
1. Paper cassette 2. Clip [A] 3. Push the shaft back through the opening, so that the roller moves clear of the
friction pad. 4. Friction pad [B]
Paper End Sensor
1. Paper cassette 2. Paper end sensor [A] ( x 1)
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Exit Sensor
- Non-Duplex Models -
1. Open the right door. 2. Front right cover ( p.57) 3. Guide [A] ( x 2) 4. Exit sensor bracket [B] ( x 1) 5. Exit sensor [C] ( x 1)
- Duplex Models -
1. Open the right door. 2. Front right cover ( p.57) 3. Upper guide [D] ( x 2)
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4. Exit sensor bracket [E] ( x 1) 5. Exit sensor [F] ( x 1)
By-Pass Feed Roller and Paper End Sensor
1. By-pass tray ( p.58)
If you have a support to keep the by-pass tray within the reach of the connector
cable, you do not need to disconnect the connector. When you do so, use
caution not to place too much load on the cable.
2. Sensor holder [A] 3. By-pass paper end sensor [B] ( x 1) 4. By-pass feed roller [C]
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Registration Roller
1. PCU ( p.76) 2. Front cover ( p.56) 3. Right door ( p.58) 4. Rear cover ( p.54) 5. High-voltage power supply ( p.89) 6. Registration clutch ( p.89) 7. Unhook the springs [A] and [B] at the rear and front sides. 8. Guide support [C] and guide [D] ( x 1, x 1) 9. Bushing [E] ( x 1) 10. Gear [F] and bushing [G] ( x 1) 11. Registration roller [H] with the image transfer unit [I]
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By-Pass Paper Size Switch
1. By-pass tray ( p.58) 2. Tray lever [A] ( x 1, 1 pin) 3. Lift the upper tray [B] 4. By-pass paper size switch [C] ( x 1)
When reinstalling the switch: Move the paper guides to their middle position
(about halfway between fully open and fully closed), and install the round gear
so that the hole in the gear [D] aligns with the peg [E] on the sliding gear.
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Registration Clutch
1. Rear cover ( p.54) 2. High-voltage power supply board (with the bracket) [A] ( x 4, all connectors) 3. Registration clutch [B] ( x 1, x 1)
Registration Sensor
1. Open the right door. 2. Registration sensor [A] ( x 1)
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Upper Paper Feed Clutch and By-Pass Feed Clutch
1. Rear cover ( p.54) 2. High-voltage power supply board ( p.89) 3. Clutch cover [A] ( x 2, 2 bushings, x 2 ) 4. Paper feed clutch [B] ( x 1) 5. By-pass feed clutch [C] ( x 1)
Make sure that the rotation-prevention tabs [D] on the clutches fit correctly into
the corresponding openings on the clutch cover when you reinstall.
Relay Clutch
1. Rear cover ( p.54) 2. Relay clutch [A] ( x 1)
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Relay Sensor
1. Relay clutch ( Previous procedure) 2. Sensor bracket [A] ( x 1) 3. Relay sensor [B] ( x 1)
Lower Paper Feed Clutch (Two-tray Models Only)
1. Rear lower cover ( p.54) 2. Clutch bracket [A] ( x 2) 3. Lower paper feed clutch [B] ( x 2, 1 bushing, x 1)
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Vertical Transport Sensor (Two-tray Models Only)
1. Right lower cover ( p.59) 2. Metal plate [A] ( x 3) 3. Vertical transport sensor [B] ( x 1)
Paper Size Switch
1. Paper cassette 2. Switch cover [A] ( x 1) 3. Paper size switch [B] ( x 1)
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Image Transfer
Image Transfer Roller
Do not touch the transfer roller surface with bare hands
1. Open the right door. 2. Lift the plastic holders [A] with the image transfer roller [B].
Leave the springs under the holders. Make sure that the pegs [C] on the holders
[D] engage with the springs when you reassemble.
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Image Density Sensor
1. Open the right door. 2. Plastic cover [A] 3. Image transfer roller ( Previous procedure) 4. Push down on the notch [B] to free the sensor. 5. Image density sensor [C] ( x 1)
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Fusing
Fusing Unit
The fusing unit can become very hot. Make sure that it has cooled down
sufficiently before you handle it.
1. Turn off the main switch, and unplug the machine. 2. Front right cover 3. Open the right door. 4. Fusing unit [A] ( x 2, x 4)
Thermistor
1. Fusing unit (see above) 2. Thermistors [A] ( x 1, x 1)
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Fusing Lamps
1. Fusing unit 2. Separate the hot roller section [A] from the pressure roller section [B] ( x 4). 3. Front holding plate [C] ( x 1) 4. Rear holding plate [D] ( x 1) 5. Fusing lamp with the connector (600W) [E] ( x 2) 6. Fusing lamp with the connector (550W) [F] ( x 2)
Check that the front ends of the two lamps fit in the front holding plate when you
reassemble. They do not fit in there if you arrange the two lamps incorrectly.
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Hot Roller Stripper Pawls
1. Hot roller section (See above) 2. Roller guard [A] ( x 3) 3. Metal holders [B] (1 holder for each) 4. Hot roller stripper pawls [C] (1 spring for each)
Hot Roller
1. Hot roller stripper pawls (See above) 2. Hot roller [A] (2 C-rings, 1 gear, 2 bearings)
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Thermostat
1. Hot roller (See above) 2. Thermostat [A] ( x 2 for each)
Pressure Roller and Bushings
1. Separate the hot roller section from the pressure roller section ( p.96). 2. Fusing entrance guide [A] ( x 2) 3. 2 springs [B] 4. 2 pressure arms [C] 5. 2 Bushings [D] 6. Pressure roller [E]
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NIP Band Width Adjustment
Do this adjustment when the fusing unit is at its operating temperature. The size of the OHP
sheet must be A4/LT LEF. Any other sizes may cause a paper jam.
1. Pressure roller
2. Hot roller
1. Place an OHP sheet on the by-pass feed table. 2. Enter SP mode, and run SP 1109. 3. Press ‘1’ (Yes) 4. Press twice. The machine feeds the OHP sheet into the fusing section, stops it
there for 20 seconds, then ejects it to the copy tray. 5. Press the key. 6. Quit the SP mode. 7. Check that the nip band (the opaque stripe) across the ejected OHP sheet is
symmetrical, with both ends slightly thicker than the center.
There is no standard value for the nip band on this machine. Make the
adjustment based on the band's appearance.
8. If the band is not as described above, change the position of the spring hooks [C] (one on each side), and then check the band again.
The higher hook position produces greater tension.
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Cleaning Roller
1. Pressure roller and bushings ( p.98) 2. Cleaning roller [A]
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Duplex Unit (Duplex Models B269/B277 Only)
Duplex Exit Sensor
1. Open the right door. 2. Sensor bracket [A] ( x 1)
Another bracket [B] comes off with the sensor bracket.
3. Duplex exit sensor [C] ( x 1)
Duplex Entrance Sensor
1. Open the right door. 2. Lift the duplex guide [A]. 3. Entrance sensor bracket [B] and bracket cover [C] ( x 2) 4. Duplex entrance sensor [D]
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Duplex Inverter Sensor
1. Copy tray [A] ( x 2) 2. Exit cover [B] ( x 1) 3. Sensor bracket [C] ( x 1, x 1) 4. Duplex inverter sensor [D] ( x 1)
Duplex Transport Motor
1. Open the right door.
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2. Detach the chain and spring from the frame, and lower the right door. 3. Cover [A] ( x 1) 4. Motor bracket [B] ( x 4, x 1). 5. Duplex transport motor [C] ( x 2)
Duplex Inverter Motor
1. Rear cover 2. Exhaust fan ( p.106) 3. Duplex inverter motor [A] ( x 2, x 1)
Duplex Control Board
1. Rear lower cover ( p.54) 2. Duplex control board [A] ( x 4 , all connectors)
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Other Replacements
Quenching Lamp
1. PCU ( p.76 ) 2. Quenching lamp [A] ( x 1)
High-Voltage Power Supply Board
1. Rear cover ( p.54) 2. High-voltage power supply board [A] ( x 2, 3 standoffs, all connectors)
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BICU (Base-Engine Image Control Unit)
1. Rear cover ( p.54) 2. BICU [A] ( x 7, all connectors, 2 flat cables)
Remove the NVRAM [B] from the old BICU and install it on the new BICU when
you replace the BICU. The NVRAM keeps machine-specific data.
Main Motor
1. Rear cover ( p.54) 2. Main motor [A] ( x 4, x 1)
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Rear Exhaust Fan (B269/B277 Only)
1. Rear cover ( p.54) 2. Rear exhaust fan [A] ( x 2, x 1)
Reassembling - Make sure that the arrow on the fan [B] points the outside of the copier when you
reassemble The arrow indicates the direction of the air current.
Left Exhaust Fan
1. Rear cover ( p.54) 2. Left cover ( p.56) 3. Fan cover [A] ( x 3) 4. Fan [B] ( x 3, x 1)
Reassembling -
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Make sure that the arrow on the fan [C] points the outside of the copier when you
reassemble. The arrow indicates the direction of the air current.
PSU (Power Supply Unit)
1. Left cover ( p.56) 2. PSU [A] (All connectors, x 6)
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Gearbox
- Replacement Procedure - 1. Inverter tray [A] Two screws [B] from the middle rear cover
This step releases the topmost part of the BICU bracket.
High-voltage power supply board (with the bracket) ( p.89) BICU (with the bracket) [C] ( x 6)
If you have difficulty to remove the bracket, remove the screw at the middle of
the crosspiece (see step 6).
Main motor ( p.105) Crosspiece [D] ( x 3) Registration clutch ( p.89)
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2. PCU ( p.76)
This step releases the gear (on the gearbox) that drives the PCU.
Ground plate [E] ( x 2) Gearbox [F] ( x 5, 1 belt)
Do not change the position of the spring [G] and make sure that the bushing [H] on the PCU
drive shaft is in the correct position you when you reassemble. You can adjust its position by
rotating the gear [I] seen from the opening of the gearbox.
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- Gear Arrangement in the Gearbox -
The gears are numbered 1 to 12 in the order in which they are to be installed in the gearbox.
These numbers show both on the gearbox and on the front (exposed) surface of each gear. If
the gears fall out, start by finding gear number 1 and installing it onto location number 1
(setting it into place so that the side with the printed number stays visible). Then install the
remaining gears (2 to 12) in the same way.
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Copy Adjustments Printing/Scanning
You need to perform the adjustment after you do a Memory All Clear, and after you
replace or adjust any of the following parts.
First or second scanner
Lens Block
Scanner Motor
Polygonal Mirror Motor
Paper Tray
Paper Side Fence
For detailed explanations about how to access and use the SP modes, see Section
5.
Printing
Make sure the paper is installed correctly in each paper tray before you start these
adjustments.
Use the Trimming Area Pattern (SP 5902, No.10) to print the test pattern for the
printing adjustments below.
Set SP 5902 to 0 again after you complete these printing adjustments.
- Registration - Leading Edge/Side-to-Side - 1. Check the leading edge registration for each paper feed station, and adjust
each of these registrations using SP 1001.
2. Check the side-to-side registration for each paper feed station, and adjust
these registrations using SP 1002. (Adjust the trays in order: the 1st tray
first, then the 2nd tray, etc.)
Tray SP mode Specification
Any paper tray SP 1001 1
By-pass feed SP 1001 2
Duplex SP 1001 3
1st tray SP 1002 1
2nd tray SP 1002 2
3rd tray SP 1002 3
2 1.5 mm
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Tray SP mode Specification
(Optional PFU tray 1)
By-pass feed SP 1002 4
Duplex SP 1002 5
A: Leading Edge Registration
B: Side-to-side Registration
- Blank Margin -
If the leading edge or side-to-side registration cannot be adjusted to within the
specification, then adjust the leading-edge blank margin or the left-side blank
margin.
1. Check the trailing edge and right side edge blank margins, and adjust them
using the following SP modes.
SP mode Specification
Trailing edge SP 2101 2
Right edge SP 2101 4 2 +2.5/–1.5 mm
Leading edge SP 2101 1
Left edge SP 2101 3
2 1.5 mm
A: Trailing Edge Blank Margin
B: Right Edge Blank Margin
C: Leading Edge Blank Margin
D: Left Edge Blank Margin
- Main Scan Magnification - 1. Print the single-dot grid pattern (SP 5902 1).
2. Check the magnification (the grid size should be 2.7 x 2.7 mm), and if
necessary use SP 2998 to adjust it. The specification is 100 1%.
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Scanning
Before doing the following scanner adjustments, check and adjust the printing
leading-edge and side-to-side registrations and the printing blank margins (as
described above).
Use an A3 test chart to perform the following adjustments.
- Registration: Platen Mode - 1. Place the test chart on the exposure glass and make a copy from one of the
feed stations.
2. Check the leading edge and side-to-side registration, and adjust as
necessary with the following SP modes.
SP mode Specification
Leading edge SP 4010
Side-to-side SP 4011 2 1.5 mm
A: Leading edge registration
B: Side-to-side registration
- Magnification -
A: Main scan magnification
B: Sub-scan magnification
- Main Scan Magnification - 1. Place the A3 test chart on the exposure glass and make a copy from one of
the feed stations.
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2. Check the magnification ratio. If necessary, adjust the magnification using
the following SP mode.
SP mode Specification
Main Scan Magnification SP 4009 1.0%
- Sub-Scan Magnification - 1. Place the OS-A3 test chart on the exposure glass and make a copy from
one of the feed stations.
2. Check the magnification ratio. If necessary, adjust the magnification with the
following SP mode.
SP mode Specification
Sub-scan magnification SP 4008 1.0%
- Standard White Density Adjustment - This procedure adjusts the standard white density level. Do this adjustment after you do any
of the following:
After you replace the standard white plate.
After you replace the NVRAM on the BICU. (But note that you do not need to carry out
this adjustment if you have replaced the BICU itself but retained the previous NVRAM
board [by moving it over onto the new BICU].)
After you perform a memory all clear (SP 5801 2)
Procedure: 1. Place 10 sheets of new A4/LTR paper (sideways, LEF) or new A3/DLT paper on the
exposure glass, and close the platen cover or the ADF. 2. Enter SP 4428 1 and select “1: YES”. The machine automatically adjusts the
standard white density.
ADF Image Adjustment
A: Leading edge registration
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B: Side-to-side registration
Make a temporary test chart as shown above, using A3/11" x 17" paper.
1. Place the temporary test chart on the ADF and make a copy from one of the feed stations.
2. Check the registrations, and adjust as necessary with the appropriate SP modes, as follows.
SP mode
Side-to-side registration SP 6006 1
Leading edge registration SP 6006 2
Blank margin for the trailing edge SP 6006 3
Side-to-side registration (Duplex: back side) SP 6006 4
- Sub-scan Magnification -
A: Sub-scan magnification
Make a temporary test chart as shown above, with A3/11" x 17" paper.
1. Place the temporary test chart on the ADF and make a copy from one of the feed stations.
2. Check the registration, and if necessary adjust it with SP 6006 5. The specification is 1.0%.
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Troubleshooting
Service Call Conditions
Summary
There are four levels of service call conditions.
Level Definition Reset Procedure
A
To prevent damage to the machine, the main
machine cannot be operated until the SC has
been reset by a service representative (see the
note below).
Enter SP mode, and then turn
the main power switch off and
on.
B
If the SC was caused by incorrect sensor
detection, the SC can be reset by turning the
main power switch off and on.
Turn the main power switch off
and on.
C The main machine can be operated as usual,
excluding the unit related to the service call.
Turn the main power switch off
and on.
D The SC history is updated. The machine can be
operated as usual.
The SC will not be displayed.
Only the SC history is updated.
If the problem concerns electrical circuit boards, first disconnect then reconnect the
connectors before replacing the PCBs.
If the problem concerns a motor lock, first check the mechanical load before
replacing motors or sensors.
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SC Code Descriptions
No.
Definition Symptom Possible Cause
Exposure Lamp Error
101 B The standard white level
was not detected properly
when scanning the white
plate.
Exposure lamp defective
Exposure lamp stabilizer defective
Exposure lamp connector defective
Dirty scanner mirror or scanner mirror
out of position
SBU board defective
SBU connector defective
Lens block out of position
Incorrect position or width of white
plate scanning ( p.151)
Scanner home position error 1
120 B
The scanner home
position sensor does not
detect the off condition
during initialization or
copying.
Scanner home position sensor
defective
Scanner drive motor defective
Scanner home position sensor
connector defective
Scanner drive motor connector
defective
BICU board defective
Scanner home position error 2
121 B
The scanner home
position sensor does not
detect the on condition
during initialization or
copying.
Scanner home position sensor
defective
Scanner drive motor defective
Scanner home position sensor
connector defective
Scanner drive motor connector
defective
BICU board defective
SBU white/black level correction error
143 D The automatic SBU
adjustment has failed to
Exposure lamp defective
Dirty white plate
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No.
Definition Symptom Possible Cause
correct the black level.
The automatic SBU
adjustment has failed to
correct the white level
twenty times
consecutively.
Incorrect position or width of white
plate scanning ( p.151)
BICU board defective
SBU board defective
Communication Error between BICU and SBU
144 B The BICU board cannot
detect the SBU connect
signal.
The flat cable between the BICU
board and the SBU has a poor
connection
The flat cable between the BICU
board and the SBU is damaged
BICU board defective
SBU defective
Automatic SBU adjustment error
145 D
During the automatic SBU
adjustment, the machine
detects that the white level
read from the white plate
or paper is out of range.
( p.151)
Exposure lamp defective
Dirty white plate
Incorrect position or width of white
plate scanning ( p.151)
BICU board defective
SBU board defective
Image transfer error
193 B Scanned images are not
transferred to the
controller memory within 1
minute.
BICU board defective
Controller board defective
Memory address error
198 B The BICU board does not
receive memory
addresses from the
controller board.
The firmware programs of the engine
and the controller do not match.
BICU board defective
Controller board defective
Charge roller current leak 302 B
A current leak signal for Charge roller damaged
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No.
Definition Symptom Possible Cause
the charge roller is
detected.
High voltage supply board defective
Poor connection of the PCU
Polygonal mirror motor error
320 B
The polygon mirror motor
does not reach operating
speed within 10 seconds
after the motor ON signal
is sent, or does not turn on
within one of the 200 ms
check intervals during
operation.
Polygon mirror motor defective
Poor connection between the
polygonal mirror motor driver and the
BICU board
Damaged cable between BICU and
polygonal mirror motor driver
BICU board defective
No laser writing signal (F-GATE) error
321 C
The laser-writing signal
(F-GATE) fails to turn Low
after the laser crosses 5
mm on the drum surface
from the laser writing start
position.
BICU board defective
The fax controller or printer controller
has a poor connection
Fax controller or printer controller
defective
Laser synchronization error
322 B
The main scan
synchronization detector
board cannot detect the
laser synchronization
signal for more than 5
consecutive 100 ms
intervals.
Poor connection between the LD unit
and the BICU board
Damaged cable between BICU and
LD unit
LD unit out of position
LD unit defective
BICU board defective
TD sensor error
390 B
The TD sensor outputs
less than 0.2 V or more
than 4.0 V 10 times
consecutively during
copying.
TD sensor abnormal
Poor connection of the PCU
391 B Development bias leak
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No.
Definition Symptom Possible Cause
A development bias leak
signal is detected.
Poor connection of the PCU
High voltage supply board defective
TD sensor initial setting error
392 B TD sensor initial setting is
not performed correctly.
ID sensor defective
No developer
Drum does not turn
Development roller does not turn
Poor connection of the PCU
The voltage is not applied to charge
roller
Transfer roller leak error 1
401 B
A current leak signal for
the transfer roller is
detected.
A current feedback signal
for the transfer roller is not
detected.
High voltage supply board defective
Poor connection of the PCU
Transfer/separation unit set
incorrectly
Transfer roller damaged
Transfer roller leak error 2
402 B
A current leak signal for
the transfer roller is
detected.
A current feedback signal
for the transfer roller is not
detected.
High voltage supply board defective
Poor connection of the PCU
Transfer/separation unit set
incorrectly
Transfer roller damaged
Main motor lock
500 B
A main motor lock signal is
not detected for more than
7 consecutive checks (700
ms) after the main motor
starts to rotate, or the lock
signal is not detected for
more than 7 consecutive
checks during rotation
Too much load on the drive
mechanism
Main motor defective
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No.
Definition Symptom Possible Cause
after the last signal.
Tray 2 lift motor malfunction (Optional paper tray units)
502 C
The paper lift sensor fails
to activate twice
continuously after the tray
lift motor has been on for
18 seconds.
Paper lift sensor defective
Tray lift motor defective
Too much load on the drive
mechanism
Poor tray lift motor connection
Tray 3 lift motor malfunction (optional paper tray units)
503 C
The paper lift sensor fails
to activate twice
continuously after the tray
lift motor has been on for
18 seconds.
Paper lift sensor defective
Tray lift motor defective
Too much load on the drive
mechanism
Poor tray lift motor connection
Tray 4 lift motor malfunction (optional two-tray paper tray unit)
504 C
The paper lift sensor fails
to activate twice
continuously after the tray
lift motor has been on for
18 seconds.
Paper lift sensor defective
Tray lift motor defective
Too much load on the drive
mechanism
Poor tray lift motor connection
Paper feed motor lock (optional paper tray units)
506 C
A motor lock signal is not
detected for more than 1.5
s or the lock signal is not
detected for more than 1.0
s during rotation.
Paper feed motor defective
Too much load on the drive
mechanism
Fusing thermistor open (center)
541 A
The fusing temperature
detected by the thermistor
is below 71C and is not
corrected after the main
power switch is turned on.
Fusing thermistor defective or out of
position
Power supply board defective
Loose connectors
Fusing temperature warm-up error (center) 542 A
The fusing temperature Fusing thermistor defective or out of
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No.
Definition Symptom Possible Cause
rises less than 7 degrees
in 2 seconds, and this
continues 5 times
consecutively.
The fusing temperature is
not detected in 25 or 35
seconds.
position
Fusing lamp open
Power supply board defective
Fusing overheat error (center)
543 A The fusing temperature is
over 230C for 1 second
(detected by the
thermistor).
Fusing thermistor defective
Power supply board defective
Fusing overheat error (center) 2
544 A
The fusing temperature is
over 250C for 1 second
(detected by the fusing
temperature monitor
circuit).
Fusing thermistor defective
Power supply board defective
Fusing lamp overheat error (center)
545 A
After the fusing
temperature reaches the
target temperature, the
fusing lamp does not turn
off for 12 consecutive
seconds.
Fusing thermistor defective or out of
position
Power supply board defective
Unstable fusing temperature (center)
546 A The fusing temperature
varies 50C or more within
1 second, and this occurs
2 consecutive times.
Thermistor defective or out of
position
Power supply unit defective
Zero cross signal malfunction
547 B Zero cross signals are not
detected within 5 seconds
Power supply board defective
BICU defective
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No.
Definition Symptom Possible Cause
after the main power
switch is turned on, or are
not detected within 1
second after operation
begins.
Fusing thermistor open (rear)
551 A
The fusing temperature
detected by the thermistor
is below 71C and is not
corrected after the main
power switch is turned on.
Fusing thermistor defective or out of
position
Power supply board defective
Loose connectors
Fusing temperature warm-up error (rear)
552 A
The fusing temperature
rises less than 7 degrees
in 2 seconds, and this
continues 5 times
consecutively.
The fusing temperature is
not detected in 25 or 35
seconds.
Fusing thermistor defective or out of
position
Fusing lamp open
Power supply board defective
Fusing overheat error (rear)
553 A The fusing temperature is
over 230C for 1 second
(detected by the
thermistor).
Fusing thermistor defective
Power supply board defective
Fusing lamp overheat error (rear)
555 A
After the fusing
temperature reaches the
target temperature, the
fusing lamp does not turn
off for 20 consecutive
seconds.
Fusing thermistor defective or out of
position
Power supply board defective
556 A Unstable fusing temperature (rear)
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No.
Definition Symptom Possible Cause
The fusing temperature
varies 50C or more within
1 second, and this occurs
2 consecutive times.
Thermistor defective or out of
position
Power supply unit defective
Jam error detected 3 times in succession
559
The exit sensor and
the duplex sensor
detect a paper jam 3
times in succession
This condition can
occur when SP 1159
1 is set to ‘on’. The
default is ‘off’.
Paper jams can occur for the following
reasons.
Dampness
Paper curl
Incorrect paper setting in the paper
tray
Stripper pawls coming apart
Left exhaust fan motor error
590 B The CPU detects an
exhaust fan lock signal for
more than 5 seconds.
Loose connection of the exhaust fan
motor
Too much load on the motor drive
Rear exhaust fan motor error
591 B The CPU detects an
exhaust fan lock signal for
more than 5 seconds.
Loose connection of the exhaust fan
motor
Too much load on the motor drive
Communication error between BICU and ADF
620 B
The BICU does not
receive a response from
the ADF main board for 4
seconds or more.
The BICU receives a
break signal from the ADF
main board.
Poor connection between the BICU
and ADF main board (DF connector)
ADF main board defective
BICU defective
ADF connection error
621 B An incorrect ADF (an ADF
for some other copier) is
detected. (for Basic and
ADF incorrect (The ADF for
B039/B040/B043 or
B121/B122/B123 is installed on a
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No.
Definition Symptom Possible Cause
GDI machines)
An ADF (including the
correct ADF) is installed
while the copier is in the
energy saver mode. (for
GDI machine only)
B245/B268/B269/B276/B277.)
The connector of the ADF is removed
while the machine is in the energy
saver mode.
Accounting error 1
632 C An error is detected during
the communication with
the MF accounting device.
Accounting device defective
Loose connection
Accounting error 2
633 C After communication is
established with the MF
accounting device, a
brake signal is issued.
Accounting device defective
Loose connection
Accounting RAM error
634 C An error is detected in the
RAM that saves the
information on the MF
accounting.
Accounting device defective
Accounting battery error
635 B An error is detected in the
battery that is in the MF
accounting device.
Accounting device defective
Engine start error
670 C The engine-ready signal is
not issued within 70
seconds after the switch is
turned on.
Engine board defective
Controller defective
Loose connection
Controller board communication abnormal
692 B Communication error
between the printer part of
the controller board and
The connector is abnormal between
the controller board and the BICU
board.
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No.
Definition Symptom Possible Cause
BICU.
Controller board communication abnormal
694
Communication error
between the scanner part
of the controller board and
BICU.
The connector is abnormal between
the controller board and the BICU
board.
ADF gate abnormal 1
760 B The ADF Gate signal line
between the ADF main
board and the BICU is
disconnected.
ADF main board defective
Input/output board defective
Poor connection (ADF Gate line)
between the ADF main board and the
BICU.
ADF gate abnormal 2
761 B The FGATE signal is not
issued from the ADF
within 30 seconds after
the ADF starts feeding.
ADF connector defective
SBU board defective
ADF gate abnormal 3
762 B The FGATE signal is not
terminated by the ADF
within 60 seconds after
the ADF starts feeding.
ADF connector defective
SBU board defective
Startup without video output end error
800 B
Video transfer to the
engine is started, but the
engine did not issue a
video transmission end
command within the
specified time.
Controller board defective
Startup without video input end
804 B A video transmission was
requested from the
scanner, but the scanner
Controller board defective
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No.
Definition Symptom Possible Cause
did not issue a video
transmission end
command within the
specified time.
Watchdog error
818 B The CPU does not access
the watchdog register
within a certain time.
Controller board defective
Software malfunction – download
controller firmware again
Kernel mismatch error 819 B
Software bug Download controller firmware again
Self-Diagnostic Error: CPU
820 B The central processing
unit returned an error
during the self-diagnostic
test.
Controller board defective
Download controller firmware again
Self-Diagnostic Error: ASIC
821 B
The ASIC returned an
error during the
self-diagnostic test
because the ASIC and
CPU timer interrupts were
compared and determined
to be out of range.
Controller board defective
Self-diagnostic Error: Network Interface
823 C The network interface
board returned an error
during the self-diagnostic
test.
Network interface board defective
Controller board defective
Self-diagnostic Error: NVRAM
824 B The resident non-volatile
RAM returned an error
during the self-diagnostic
test.
Replace the NVRAM on the controller
board
Replace the controller board
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No.
Definition Symptom Possible Cause
Self-diagnostic Error: NVRAM/Optional NVRAM
826 B The NVRAM or optional
NVRAM returned an error
during the self-diagnostic
test.
Replace the NVRAM on the controller
board
Self-diagnostic Error: RAM
827 B The resident RAM
returned a verify error
during the self-diagnostic
test.
Download controller firmware again
Self-diagnostic Error: ROM
828 B The resident read-only
memory returned an error
during the self-diagnostic
test.
Controller board defective
Download controller firmware again
Self-diagnostic Error: Optional RAM
829 C The optional RAM
returned an error during
the self-diagnostic test.
Replace the optional memory board
Controller board defective
Self-diagnostic Error: Clock Generator
838 B A verify error occurred
when setting data was
read from the clock
generator via the I2C bus.
Replace the controller board
Network I/F Abnormal
850 C NIB interface error.
NIB defective
Controller board defective
USB I/F Error
857 C USB interface error
detected. Defective controller
Electrical total counter error
900 B The electrical total counter
does not work properly.
NVRAM on the GDI controller board
defective
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No.
Definition Symptom Possible Cause
Mechanical total counter
901 B The mechanical total
counter does not work
properly.
Mechanical total counter defective
BICU defective
Disconnected mechanical total
counter
Engine total counter error
903 B The checksum of the total
counter is not correct. NVRAM on the BICU defective
Printer error
920 C A fatal error is detected in
the printer application
program
Printer application program defective
Hardware configuration incorrect
(including memory shortage)
Printer font error
921 C Necessary font files are
not found. Font file not installed
Memory error
928 B
The machine detects a
discrepancy in the
write/read data during its
write/read test (done at
power off/on and at
recovery from low power
or night/off mode).
Memory defective
BICU defective
Poor connection between BICU and
memory
Printer application program error
954 B
The printer status does
not become ready when
the printer application
program is necessary for
image processing.
Application program defective
Image transfer error
955 B The controller is not able
to transfer images when
the engine needs them.
Application program defective
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No.
Definition Symptom Possible Cause
Status error (laser optics housing unit)
964 B The optics-housing unit
does not become ready
within 17 seconds after
the request.
Software defective
NVRAM error
981 B
The machine detects a
discrepancy in the
NVRAM write/read data
when attempting to save
actual data to the NVRAM
(i.e. during actual use).
NVRAM defective
Poor connection between BICU and
NVRAM
NVRAM is not connected
BICU defective
Localization error
982 B The localization settings in
the nonvolatile ROM and
RAM are different (
p.158).
First machine start after the NVRAM
is replaced
Incorrect localization setting
NVRAM defective
Print image transfer error
984 B Print images are not
transferred.
Controller defective
BICU board defective
Poor connection between controller
and BICU
Software performance error
990 B The software attempted to
perform an unexpected
operation.
Software defective
Internal parameter incorrect
Insufficient working memory
When this SC occurs, the file name,
address, and data will be stored in
NVRAM. This information can be
checked by using SP 7403. Note the
above data and the situation in which
this SC occurs. Then report the data
and conditions to your technical
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No.
Definition Symptom Possible Cause
control center.
Software continuity error
991 D
The software attempted to
perform an unexpected
operation. However,
unlike SC990, the object
of the error is continuity of
the software.
No operation required. This SC code
does not appear on the panel, and is
only logged.
Unexpected Software Error
992 B Software encountered an
unexpected operation not
defined under any SC
code.
Software defective
An error undetectable by any other
SC code occurred
Application function selection error
997 B The application selected
by a key press on
operation panel does not
start or ends abnormally.
Download the firmware for the
application that failed
An option required by the application
(RAM board) is not installed
998 B
Application start error.
After power on, the
application does not start
within 60 s. (All
applications neither start
nor end normally.)
Download controller firmware
Replace the controller board
An option required by the application
(RAM board) is not installed
Program download error
999 B The download (program,
print data, language data)
from the IC card does not
execute normally.
Board installed incorrectly
BICU board defective
Controller board defective
IC card defective
NVRAM defective
Loss of power during downloading
Important Notes About SC999
Primarily intended for operating in the
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No.
Definition Symptom Possible Cause
download mode, logging is not
performed with SC999.
If the machine loses power while
downloading, or if for some other
reason the download does not end
normally, this could damage the
controller board or the PCB targeted
for the download and prevent
subsequent downloading. If this
problem occurs, the damaged PCB
must be replaced.
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Electrical Component Defects
Sensors
Component CN Condition Symptom
Open
The Paper Jam message will appear
whenever a copy is made (paper has not
reached the sensor). Registration 111-2
(BICU)
Shorted The Paper Jam message appears even if
there is no paper at the sensor.
Open
The Paper Jam message will appear
whenever a copy is made except for 1st
and by-pass tray feeding. Relay 111-5
(BICU)
Shorted The Paper Jam message appears even if
there is no paper at the sensor.
Open
The Paper End indicator lights when the 1st
paper tray is selected, even if there is paper
in the tray.
Upper Paper End 114-2
(BICU)
Shorted
The Paper End indicator does not light
when the 1st paper tray is selected, even if
there is no paper in the tray. The Paper Jam
message will appear whenever a copy is
made from the 1st paper tray.
Open
The Paper Jam message will appear
whenever a copy is made from an optional
paper tray unit. Vertical Transport 110-2
(BICU)
Shorted The Paper Jam message appears even if
there is no paper at the sensor.
Open
The Paper End indicator lights when the
2nd paper tray is selected, even if there is
paper in the tray (B276/B277/B268/B269
models only).
Lower Paper End 113-6
(BICU)
Shorted The Paper End indicator does not light
when the 2nd paper tray is selected, even if
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Component CN Condition Symptom
there is no paper in the tray. The Paper Jam
message will appear whenever a copy is
made from the 2nd paper tray.
(B276/B277/B268/B269 models only).
Shorted
Open
The Paper End indicator lights when the
bypass tray is selected, even if there is
paper in the tray.
By-pass Paper End 136-7
(BICU)
Shorted
The Paper End indicator does not light
when the bypass tray is selected, even if
there is no paper in the tray. The Paper Jam
message will appear whenever a copy is
made from the bypass tray.
Open
The Paper Jam message will appear
whenever a copy is made (paper has not
reached the sensor). Exit 124-2
(BICU)
Shorted The Paper Jam message appears even if
there is no paper at the sensor.
Open Toner Density
125-3
(BICU) Shorted SC390 is displayed.
Open Image Density
123-2
(BICU) Shorted
The toner density control process is
changed (see the note below the table).
Open Scanner H.P.
102-2
(BICU) Shorted SC120 shows.
Open APS and Auto Reduce/Enlarge do not
function correctly.
Platen Cover 102-5
(BICU) Shorted
If the Start button is pressed with the platen
cover or A(R) DF closed, “Cannot detect
original size” is displayed.
Open Original Width
103-3,4
(BICU) Shorted
The CPU cannot detect the original size
properly. APS and Auto Reduce/Enlarge do
not function correctly.
Open Original Length
103-8,9
(BICU) Shorted
The CPU cannot detect the original size
properly. APS and Auto Reduce/Enlarge do
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Component CN Condition Symptom
not function correctly.
Open
The Paper Jam message will appear
whenever a duplex copy is made (paper
has not reached the sensor). Duplex Entrance 222-2
(DCB)
Shorted The Paper Jam message appears even if
there is no paper at the sensor.
Open
The Paper Jam message will appear
whenever a duplex copy is made (paper
has not reached the sensor). Duplex Exit 222-5
(DCB)
Shorted The Paper Jam message appears even if
there is no paper at the sensor.
Open
The Paper Jam message will appear
whenever a duplex copy is made (paper
has not reached the sensor). Duplex Inverter 220-6
(DCB)
Shorted The Paper Jam message appears even if
there is no paper at the sensor.
SC392 is activated when the CPU detects an ID sensor error during developer
initialization (SP 2214). However, SC392 is not displayed on the LCD but simply
logged in the SC log (SMC printout), unless the technician exits SP Mode as soon as
an error message is displayed.
Switches
Component CN Condition Symptom
Open Upper Paper Size
115-
1,2,4
(BICU) Shorted
The CPU cannot detect the proper paper
size, and misfeeds may occur when a
copy is made from the 1st paper tray.
Open The Cover Open indicator is lit even if the
vertical transport door is closed. Vertical Transport Door
110-5
(BICU) Shorted
The Cover Open indicator is not lit even if
the vertical transport door is opened.
Open Lower Paper Size
113-
1,2,4
(BICU) Shorted
The CPU cannot detect the proper paper
size, and misfeeds may occur when a
copy is made from the 2nd paper tray.
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Component CN Condition Symptom
By-pass Paper Size
136-
1,2,4,5
(BICU)
Open
The CPU misdetects or is not able to
detect the size of the paper set in the
bypass tray, causing possible misfeeds
when feeding from this tray.
Open The Cover Open indicator is lit even if the
right door is closed. Right Door
124-5
(BICU) Shorted
The Cover Open indicator is not lit even if
the right door is open.
Open The Cover Open indicator is lit even if
doors are closed. Front/Right Cover
130-1
(BICU) Shorted
The Cover Open indicator is not lit even if
doors are open.
Open The machine does not turn on. Main
281-3,4
(PSU) Shorted The machine does not turn off.
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Blown Fuse Conditions All the fuses in the following table are on the power supply board.
Rating Fuse
120 V 220 – 240 V
FU1 15A/125V 8A/250V
FU2 5A/125V 2.5A/250V
FU3 1A/250V 1A/250V
FU4 4A/250V 4A/250V
FU5 4A/250V 4A/250V
FU6 4A/250V 4A/250V
FU7 4A/250V 4A/250V
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LED Display
BICU
Number Function
LED 1 Monitors the +5 V line for the CPU and the surrounding circuit.
Usually, this LED is blinking.
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Service Tables
Service Program Mode
Do not let the user access the SP mode. Only service representatives are allowed to
access the SP mode. The machine quality or its operation is NOT guaranteed if
persons other than service representatives accesses the SP mode.
How to Enter the SP Mode
The following two modes are available:
SP Mode (Service Program Mode): The SP Mode includes the programs that are
necessary for standard maintenance work.
SSP Mode (Special SP Mode): The SSP Mode includes SP-Mode programs and some
special programs. You need some extra knowledge to manipulate these special
programs. For details, consult your supervisor.
Starting SP Mode
1. Type the keys as follows: [Clear Modes] > [1] > [0] > [7]
2. Press the [Clear/Stop] key and hold it down until the SP-mode menu is
displayed (about 3 seconds).
Starting SSP Mode
For the basic machine (the machine without the optional controller box), perform as listed in
steps 1 through 4. For the GDI machine (the machine with the optional controller box),
perform as listed in steps 1 through 5.
1. Type the keys as follows: [Clear Modes] > [1] > [0] > [7]
2. Press the key and hold it down until the SP-mode menu shows (about 3
seconds).
3. Press the [Enter] key and hold it down.
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4. While holding down the [Enter] key, press the [1] key (on the numeric
keypad).
5. While holding down the [Enter] key, press the "OK" key.
Selecting Programs
When a blinking underscore (or several blinking underscores) shows, you can type a
number from the numeric keypad [D].
When the sign " /OK" [A] shows in the upper right corner, you can scroll through the
menu by pressing the left-arrow key [B] or the right-arrow key [C]. To select a program,
press the "OK" key [F].
Specifying Values
1. After locating a program, press the "OK" key. A blinking underscore (or
several blinking underscores) indicates which value you can change. The
value in parentheses is the default value of the menu.
2. Type a necessary value from the numeric keypad. To switch between
positive (plus) and negative (minus) values, press the [./*] (period/asterisk)
key.
3. To validate the value, press the "OK" key. To cancel the value, press the
cancel key [E].
Activating Copy Mode
You can activate the copy mode while the SP mode is running. When you do so, the copier
outputs images or patterns that help you adjust the SP-mode program.
1. Press the key. The copy mode is activated.
2. Specify copy settings and press the "OK" key.
3. To return to the SP mode, press the key.
You cannot end the SP mode while the copy mode is activated.
Quitting Programs/Ending (S)SP Mode
Press the key or the "Cancel" key to quit the program. You can end the SP mode by
pressing one of these keys several times.
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SP Mode Tables The following codes are used:
Asterisk (*): The settings are saved in the NVRAM. Most of them return to the default
values when you execute SP 5801 2
The DFU menu is for design or factory use only. You must not change the settings.
Brackets ([ ]): The brackets enclose the setting rage, default value, and minimum step
(with unit) as follows: [Minimum Maximum / Default / Step].
SSP: The program is in the SSP Mode only. Consult your supervisor before you use this
program.
SP1-XXX (Feed)
Leading Edge Registration 1001*
Adjusts the printing leading-edge registration from paper trays.
1001 1 All Trays
1001 2 By-pass
1001 3 Duplex
[–9.0 ~ 9.0 / 0.0 / 0.1 mm/step] ( p.111)
Side-to-Side Registration
1002*
Adjusts the printing side-to-side registration from each paper feed station, using
the Trimming Area Pattern (SP 5902, No.10). Adjustments are supported for all
4 possible feed trays (including optional trays).
The SP 1002 1 setting is applied to all trays, not just the 1st tray. Settings for
trays 2 to 4 are offsets relative to the SP 1002 1 setting.
For duplex copies, the value for the front side is determined by SP 1002 1 to 4,
and the value for the rear side is determined by SP 1002 6.
1002 1 1st tray
1002 2 2nd tray
1002 3 3rd tray
1002 4 4th tray
1002 5 By-pass
1002 6 Duplex
[–9.0 ~ 9.0 / 0.0 / 0.1 mm/step] ( p.111)
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Paper Feed Timing
1003* Adjusts the amount of buckle the paper feed clutch applies to the paper after the
registration sensor is activated. A higher setting applies greater buckling.
1003 1 1st tray [0 ~ 10 / 5 / 1 mm/step]
1003 2 2nd tray (B276/B277 only) [0 ~ 10 / 5 / 1 mm/step]
1003 3 Optional tray [0 ~ 10 / 5 / 1 mm/step]
1003 4 By-pass feed [0 ~ 10 / 6 / 1 mm/step]
1003 5 Duplex [0 ~ 20 / 6 / 1 mm/step]
1007 Display By-pass
1007 1 Display By-pass Displays the by-pass paper width switch output.
Fusing Idling
1103*
This program decides the action of the Fusing Drive Release Mechanism. When
you select "1," the contact/release control is disabled and the drive power is
always transmitted to the fusing unit. As a result, the machine takes a longer
time to warm up the fusing unit. Use SP 1103 1 if fusing quality is low even when
the room temperature is not very low.
1103 1 Fusing Idling [0 = No / 1 = Yes]
Fusing Temperature Adjustment
1105* Adjusts the target fusing temperature. "Center" indicates the center of the roller;
"End" indicates the front and rear ends.
1105 1 Warm Up-Center
1105 2 Warm Up-End [140 ~ 180 / 160 / 1°C/step]
1105 3 Standby-Center [140 ~ 170 / 155 / 1°C/step]
1105 4 Standby-End [140 ~ 165 / 150 / 1°C/step]
1105 5 Copying-Center
1105 6 Copying-End [140 ~ 185 / 160 / 1°C/step]
1105 7 Low Level 2-Center
1105 8 Low Level 2-End [0 ~ 80 / 60 / 1°C/step]
1105 9 Thick-Center
1105 10 Thick-End [140 ~ 185 / 175 / 1°C/step]
1105 11 Warm Up Low-Center [140 ~ 180 / 170 / 1°C/step]
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143
1105 12 Warm Up Low-End
1106 Display Fusing
1106 1 Displays the fusing temperature (center)
1106 2 Displays the fusing temperature (end)
Fusing Soft Start
1107* Adjusts the number of zero-cross cycles of the fusing lamp AC supply needed to
bring the fusing lamp power to 100% while bringing the lamp up to the standby
temperature or while copying. Increase this value if the machine is experiencing
sudden power dropouts ( p.254).
1107 1 Warm Up Soft Start [0 = 10 cycles / 1 = 20 cycles / 2 = 50 cycles]
1107 2 Other Soft Start [0 = 5 cycles / 1 = 10 cycles / 2 = 20 cycles]
1108* Set-Fusing Start [0 = 1s / 1 = 1.5s / 2 = 2s]
1108 1 Specifies the interval for fusing-temperature control ( p.254).
1109 Nip Band Check
1109 1 Checks the fusing nip band ( p.99).
1110* Fan Control Timer
1110 1
[30 ~ 60 / 30 / 1 s/step]
Inputs the fan control time. The fan maintains normal speed for the specified
time after occurrence of an SC or following entry into Warm-up mode, Low
Power mode, or Night/Off mode.
1159* Fusing Jam SC Code Setting 0=No 1=Yes
1159 1 This SP mode detects SC559. Set this SP mode to ‘Yes’ if the machine
experiences paper jam problems on a continual basis.
1902 Display-AC Freq.
1902 1
Displays the fusing lamp power control frequency (as detected by the zero cross
signal generator). The displayed value is 1/5 the actual frequency: 10 = 50 Hz,
12 = 60 Hz.
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Feed Clutch Boost
1903* Adjusts the amount of extra push that the feed clutch gives to the paper after the
skew has been corrected at registration. This feature helps the registration roller
feed certain types of paper (such as thick paper). Increase the value if thick
paper is jamming after feeding from the registration roller.
1903 1 By-pass tray [0 ~ 10 / 6 / 1 mm/step]
1903 2 2nd, 3rd, 4th tray [0 ~ 10 / 3 / 1 mm/step]
Optional Tray Adj. 1908*
Adjusts the reverse time for the upper and lower paper lift motors.
1908 1 1st optional
1908 2 2nd optional
[–2 ~ +2 / 0 / 1/step]
( p.278)
1911* By-pass Envelope
1911 1
[0 = Disabled / 1= Enabled
The program dedicated to envelope printing runs when you enable this program
(SP 1911 1) and you select "Thick Paper" as the paper type of the by-pass tray
(System Settings > Tray Paper Settings > Paper Type: Bypass Tray).
SP2-XXX (Drum)
2001* Charge Roller Bias Adjustment
Printing [–2100 ~ –1500 / –1700 / 1 V/step]
2001 1 Adjusts the voltage applied to the charge roller when printing. The actually
applied voltage changes automatically as charge roller voltage correction is
carried out. The value you set here becomes the base value on which this
correction is carried out.
ID sensor pattern [0 ~ 400 / 300 / 1 V/step]
2001 2 Adjusts the voltage applied to the charge roller when generating the Vsdp ID
sensor pattern (as part of charge roller voltage correction). The actual
charge-roller voltage is obtained by adding this value to the value of SP 2001 1.
2101* Erase Margin Adjustment
2101 1 Leading edge [0.0 ~ 9.0 / 2.0 / 0.1 mm/step] ( p.111)
Specification: 2 ± 1.5 mm
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Adjusts the leading edge erase margin.
Trailing [0.0 ~ 9.0 / 3.0 / 0.1 mm/step] ( p.111)
Specification: 2 +2.5/–1.5 mm 2101 2
Adjusts the trailing edge erase margin. The rear trailing edge is this value plus
1.2 mm.
Left side [0.0 ~ 9.0 / 2.0 / 0.1 mm/step] ( p.111)
Specification: 2 ± 1.5 mm 2101 3
Adjusts the left edge erase margin. The rear left edge is this value plus 0.3 mm.
Right side [0.0 ~ 9.0 / 2.0 / 0.1 mm/step] ( p.111)
Specification: 2 +2.5/–1.5 mm 2101 4
Adjusts the right edge erase margin. The rear right edge is this value plus 0.3
mm.
2201* Development Bias Adjustment
Printing [–1500 ~ –200 / –650 / 1 V/step]
2201 1 Adjusts the voltage applied to the development roller when printing. This can be
adjusted as a temporary measure if faint copies are being produced due to an
aging drum.
ID sensor pattern [–2 = LL (220 V) / -1 = L (260 V) / 0 = N (300 V) / 1
= H (340 V) / 2 = HH (380 V)]
2201 2 Adjusts the voltage applied to the development roller when generating the ID
sensor pattern. The actual voltage applied is this setting plus the value of SP
2201 1. The setting affects ID sensor pattern density, which in turn affects the
toner supply.
2213* Outputs after Near End
2213 1
[0 = 50 pages / 1 = 20 pages]
Sets the number of copy/print pages that can be made after toner near-end has
been detected. Reduce the number of pages if the user normally makes copies
with a high image ratio.
2214 Developer Initialization
2214 1 Initializes both the TD sensor toner supply target voltage and the TD sensor
gain value. Carry this out after replacing the developer or the TD sensor.
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2220 TD Sensor Output Value Display
2220 1
Displays:
1. Vt: the current TD sensor output value and
2. Vref: the target TD output value Vts (SP 2926) + correction for
ID sensor output.
The TD sensor output value changes every copy. If 1 > 2, toner is supplied to the
development unit.
2221 ID Sensor Error Analysis
2221 1 Vsg Displays the Vsg value.
2221 2 Vsp Displays the Vsp value.
2221 3 PWM Displays the PWM value.
2221 4 Vsdp Displays the Vsdp value.
2221 5 Vt Displays the Vt value.
2221 6 Vts Displays the Vts value.
2301* Transfer Current Adjustment
Normal paper [–2 = –4 mA / –1 = –2 mA / 0 = 0 mA / 1 = 2 mA /
2 = +4 mA]
2301 1 Adjusts the current applied to the transfer roller when feeding from a paper tray.
Use a high setting if the user normally feeds relatively thick paper (within spec)
from a paper tray ( p.248).
Thick/Special paper [–2 = –4 mA / –1 = –2 mA / 0 = 0 mA / 1 = 2 mA /
2 = +4 mA]
2301 2 Adjusts the current applied to the transfer roller when feeding from the by-pass
tray. Use a high setting (a) if the user normally feeds relatively thick paper from
the by-pass tray, or (b) if waste toner is re-attracted from the drum (which can
occur when using transparencies). ( p.248)
Duplex [–2 = –4 mA / –1 = –2 mA / 0 = 0 mA / 1 = 2 mA
/ 2 = +4 mA]
2301 3 Adjusts the current applied to the transfer roller when carrying out a duplex job.
Use this SP if there is poor image transfer on the rear side of duplex copies (
p.248).
Cleaning [–10 ~ 0 / –1 / 1 mA/step] 2301 4
Adjusts the current applied to the transfer roller for roller cleaning. Increase the
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current if toner remains on the roller after cleaning. (Remaining toner may cause
dirty background on the rear side.) ( p.248)
2802 Forced Developer Churning
2802 1
Initializes the developer and checks the TD sensor output (Vt). The machine
mixes the developer for 2 minutes while reading and displaying the Vt value.
The machine does not initialize the TD sensor output. If the machine has not
been used for a long period of time, prints may have a dirty background. In this
case, use this SP mode to mix the developer. The message "Completed" is
displayed when the program ends normally.
2906* Tailing Correction
Shift value [0.0 ~ 1.0 / 0.0 / 0.1 mm/step]
2906 1
Shifts the image writing position in intervals specified by SP 2906 2. When
making many copies of an original that contains vertical lines (such as in tables),
the paper may not separate correctly. This can cause tailing images (ghosts of
the vertical lines continuing past the bottom of the table). This SP can be used to
prevent this.
Interval [1 ~ 10 / 1 / 1 page/step] 2906 2
Changes the interval for the image shift specified by SP 2906 1.
2908 Forced Toner Supply
2908 1
Forces the toner bottle to supply toner to the toner supply unit. Press “1” to start.
The machine continues to supply toner until the toner concentration in the
development unit reaches the standard level, or for up to 2 minutes (whichever
comes first).
2915* Polygon Mirror Motor Idling Time
2915 1
[0 = None / 1 = 15 s / 2 = 25 s]
Selects the polygon mirror motor idling time. To increase the speed of the first
copy, the mirror motor begins idling when the user sets an original, touches a
key, or opens the platen cover or DF. If this setting is left at the default (15 s), the
motor will stop if the user does nothing for 15s. If the setting is “0”, the motor will
not switch off during standby. (But note that regardless of the setting, the motor
will switch off when the machine enters energy saver mode.)
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2921* Toner Supply Mode
2921 1
[0 = Sensor 1 / 1 = Sensor 2 (DFU) / 2 = Fixed 1 (DFU) / 3 = Fixed 2]
Selects the toner supply mode. Under normal conditions this should be set to
“0”. You can temporarily change this to “3” if the TD sensor is defective. Do not
set to “1” or “2”, as these are for design use only ( p.231).
2922* Toner Supply Time
2922 1
[0.1 ~ 5.0 / 0.4 / 0.1 s/step]
Adjusts the toner supply motor ON time for Sensor 1 and Sensor 2 toner supply
mode. Accordingly, this setting is effective only if SP 2921 is set to “0” or “1”
Raising this value increases the toner supply motor ON time. Set to a high value
if the user tends to make many copies having high proportions of solid black
image areas ( p.231).
2923* Toner Recovery Time
2923 1
[3 ~ 60 / 30 / 1 s/step]
Adjusts the toner supply motor ON time used during toner recovery from Toner
Near End or Toner End. This setting is effective only if SP 2921 is set to “0”
Since toner recovery is carried out in 3-second cycles, the input value should be
a multiple of 3 (3, 6, 9...). ( p.231)
2925* Toner Supply Rate
2925 1
Adjusts the toner supply time for fixed toner supply mode. This setting is
effective only if SP 2921 is set to “2” or “3”.[0 ~ 7 / 0]t = 200ms, and settings are
as follows
0 = t , 1 = 2t, 2 = 4t, 3 = 8t, 4 = 12t, 5 = 16t,
6 = on continuously, 7 = 0 s
Raising this value increases the toner supply motor ON time. Set to a high value
if the user tends to make many copies having high proportions of solid black
image areas ( p.231).
2926* Standard Vt
2926 1 [0.00 ~ 5.00 / 2.50 / 0.01 V/step] DFU
Adjusts Vts (the Vt value for new developer). The TD sensor output is adjusted
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to this value during the TD sensor initial setting process]. This SP is effective
only when SP 2921 is “0”, “1”, or “2”.
2927* ID Sensor Control
2927 1
[0 = No / 1 = Yes]
Selects whether the ID sensor is or is not used for toner density control. This
value should normally be left at “1”. If the value is “0”, dirty background may
occur after long periods of non-use.
2928 Toner End Clear
2928 1
Clears the toner end condition without adding new toner. The following are
cleared:
Toner end indicator (goes out)·
Toner near-end counter
Toner near-end level
This function should generally not be used. If you clear the toner end condition
without adding new toner, there is a risk that the drum may eventually begin to
attract carrier after many more copies are made and toner runs out. This
attracted carrier may damage the drum.
Vref Limits 2929*
Adjust the upper or lower Vref limit.
2929 1 Upper [0.50 ~ 3.50 / 3.20 / 0.01V/step] DFU
2929 2 Lower [0.50 ~ 3.50 / 0.70 / 0.01V/step] DFU
2994* ID Sensor Detection Temperature [30 ~ 90 / 30 / 1 C/step]
2994 1
While the machine is recovering from an energy saver mode, or while the
machine starts, the controller ignores the ID-sensor signals if the fusing
temperature is at the specified value or higher.
2996* Transfer Roller Cleaning
2996 1
Selects whether the transfer roller is cleaned before each copy job. Set this to
“1” if dirty background is appearing on the reverse side of the first page of copy
jobs. Note that this will increase the time required to generate the first copy. If
the setting is “0”, the transfer roller is never cleaned ( p.249).
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2997* Toner Density Sensor Standard
Voltage [0 / 2.5 / 5/ 0.01V/step] DFU
2998* Main Scan Magnification [–0.5 ~ +0.5 / 0.0 / 0.1%/step]
2998 1 Adjusts the magnification along the main scan direction, for all print modes
(copy, printing). The specification is 100 ± 1.0% ( p.111).
SP4-XXX (Scanner)
4008* Sub-Scan Magnification (Scanner) [-0.9 ~ +0.9 / 0.0 / 0.1%/step]
4008 1 Adjusts the actual sub-scan direction scanning magnification. The higher the
setting, the lower the scanner motor speedError! No bookmark name given..
4009* Main Scan Magnification (Scanner) [–0.9 ~ +0.9 / 0.0 / 0.1%/step]
4009 1
Adjusts the magnification along the main scan direction, for scanning.
The specification is 100 ± 1.0%
Main scan magnification is implemented in steps of 0.5. Accordingly, your input
value should be a multiple of 0.5 (–1.0, –0.5, 0, +0.5, or +1.0)
4010* Leading Edge Registration
(Scanner) [–5.0 ~ +5.0 / 0.0 / 0.1 mm/step]
4010 1
Adjusts the leading edge registration for scanning in platen mode ( p.111).
(–): The image moves toward the leading edge.
(+): The image moves toward the trailing edge·
The specification is 2 ± 1.5 mm.
4011* Side-to-side Registration (Scanner) [–4.2 ~ +4.2 / 0.0 / 0.1 mm/step]
4011 1
Adjusts the side-to-side registration for scanning in platen mode ( p.111
Increasing the value shifts the image to the right
The specification is 2 ± 1.5 mm.
Scan Erase Margin
4012* Adjusts the scanning margin individually for each of the four edges. It is
generally best to adjust the scanning margin as little as possible, and use the
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printing margin for image adjustments.
4012 1 Leading edge
4012 2 Trailing edge
4012 3 Left
4012 4 Right
[0 ~ 9.0 / 1.0 / 0.1 mm/step]
4013 Scanner Free Run
4013 1 Performs a scanner free run with the exposure lamp on. Press ON or to start.
Press OFF to stop.
4015* White Plate Scanning
Start position [–3.0 ~ +6.0 / 0.0 / 0.1 mm/step]
4015 1 Adjusts the scanning start position on the white plate for auto shading. The base
value stored in the machine is 15.2 mm toward the white plate from the scanner
HP. This SP setting specifies the offset from this base value.
Scanning length [–3.0 ~ +6.0 / 0.0 / 0.1 mm/step]
4015 2 Adjusts the length of the white plate scan, in the main scan direction. The scan
begins at the start position set above [in SP 4015 1] and extends for the
specified length. The base value stored in the machine is 4.76 mm. This SP
setting specifies the offset from this base value.
4301 Display-APS Data
4301 1 Displays the status of the APS sensors and platen/DF cover sensor (
p.191).
4303* APS Small Size Original [0 = No (not detected) / 1 = Yes (A5/HLT LEF)]
4303 1
Selects whether or not the copier will consider the original to be A5/HLT LEF
when the APS sensors cannot detect its size. If “Yes” is selected, paper sizes
that cannot be detected by the APS sensors are regarded as A5/HLT LEF. If
“No" is selected, “Cannot detect original size” will be displayed.
4305* APS Priority [0 = Normal / 1 = A4/LT / 2 = 8K/16K]
4305 1
1. A4/LT
North America model: When the ASP detects the LT size, the controller
interprets it as the A4 size.
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Other models: When the ASP detects the A4 size, the controller interprets
it as the LT size. 2. 8K/16K (for the China model only)
When the ASP detects the A3/B4 SEF, the controller interprets it as the 8K
SEF.
When the ASP detects the B5/A4 SEF, the controller interprets it as the 16K
SEF.
When the ASP detects the B5/A4 LEF, the controller interprets it as the 16K
LEF.
The Europe model interprets undetected original sizes as A5 LEF under the
following conditions:
1. SP 4303 1 is "Yes," and
2. SP 4305 1 is "Normal"
The Europe model interprets undetected original sizes as LT SEF under the
following conditions:
1. SP 4303 1 is "Yes," and
2. SP 4305 1 is "A4/LT"
4428 Scan Auto-Adjustment
4428 1 Performs the automatic scanner adjustment. Use this SP mode after replacing
the white plate.
4901 SBU White Level Adjustment
Black Display-Error [0 = Normal / 1 = Error]
4901 1 Displays the return code of the black-level adjustment. When an error is
detected, SC143 or SC145 is generated.
Black Feedback-EVEN [0 8191]
4901 2 Displays the feedback value of the even channels given by the SBU. Normally,
the value is 1, 2, 3, ..., 8188, 8189, or 8190. However, machine may operate
normally even when the value is 0 or 8191.
Black Feedback-ODD [0 8191]
4901 3 Displays the feedback value of the odd channels given by the SBU. Normally,
the value is 1, 2, 3, ..., 8188, 8189, or 8190. However, machine may operate
normally even when the value is 0 or 8191.
Black Display-Target [0 63 / 10 /step] 4901 4
Displays the target value for the black-level adjustment executed during
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machine initialization. Normally, the value is 10. Other values indicate that the
adjustment has ended unsuccessfully.
White Target [0 511 / 511 / 1/step] 4901 5*
Displays the target value for the white-level adjustment.
White Result [0 511 / 0 / 1/step] 4901 6
Displays the result of the white-level adjustment.
White Display-Error [0 = Normal / 1 = Error]
4901 8 Displays the return code of the white-level adjustment. When an error is
detected, SC143 is generated.
White Display-Overflow [0 = Normal / 1 = Error]
4901 9 Displays a return code of the white-level adjustment. The code "1" (error) is
returned if the adjustment result is not in the range of the values in SP 4901 6.
White Number of Attempt [0 20 / 0 / 1/step]
4901 10
Displays how many times the white-level adjustment is retried. The value does
not include the first execution of the white adjustment. For example, if the value
is "2", this indicates that the white-level adjustment has been executed three
times. The white-level adjustment can be executed 20 times or less. Therefore, if
the value is "20," this indicates that the white-level adjustment has ended
abnormally (as described, the value "20" does not include the first execution). If
the white-level adjustment is unsuccessful, the machine uses the result of the
latest, successful white-level adjustment.
Auto Adjustment Setting [222 281 / 256 / 1/step]
4901 11 Displays the parameter of the white-level adjustment. The value is based on the
result of SP 4901 12.
Auto Adjustment-Result [0 600 / 0 / 1/step]
4901 12 Displays the result of the white-level adjustment. Normally, the value is between
228 and 281 (including the both values). When the value is normal, it is stored as
the value of SP 4901 11.
Auto Adjustment-Error [0 = Normal / 1 = Error]
4901 14 Displays a return code of the white-level adjustment. The code "1" (error) is
returned if the adjustment result value is less than 228 or larger than 281 (
SP4901 12).
4902* Exposure Lamp ON
4902 1 Turns the exposure lamp on or off. To turn off the exposure lamp, select “OFF”.
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(The exposure lamp shuts off automatically after 180 seconds.)
4903* ADS Level [0 255 / 252 / 1/step]
4903 1 Adjusts the ADS level.
4904* ADS Lower Limit [0 255 / 80 / 1/step]
4904 1 Adjusts the ADS lower limit.
4905* ADS Level [0 = All / 1 = One]
4905 1 Checks the whole area (0 = All) or the area between 15 mm and 90 mm from
the left edge (1 = One) to adjust the ADS level.
4921* Image Adj Selection
Image Adj Selection (Copy) [0 ~ 10 / 0 / 1]
4921 1 Selects which mode the settings from SP 4922 to SP 4932 and are used for:
0 = None, 1 = Text 1, 2 =Text 2, 3= Photo 1, 4 = Photo 2, 5 = Photo 3, 6 =
Special 1, 7 = Special 2, 8 = Special 3, 9 = Special 4, 10 = Special 5
Scanner Gamma
4922* Selects “text” or “photo” as the priority output mode. This setting is applied to all
image processing modes of SP 4921.
4922 1 Scanner Gamma (Copy) [0=System default/1=Text/2=Photo]
4922 3
Notch Selection
4923*
Selects the value of the center ID adjustment notch for the ID adjustment LEDs.
Normally the center notch is 3 (range 1-5). If –1 is selected, each notch shifts
down (becomes lighter). If +1 is selected, each notch shifts up (becomes
darker).·
This setting is applied to all image processing modes of SP 4921.
4923 1 Notch Selection (Copy) [–1 = Light / 0 = Normal / +1 = Dark]
Texture Removal
4926* Adjusts the texture removal level that is used with error diffusion. 0: The default
value for each mode is used. Text 1, Photo 2, Special 2, and Special 5 have a
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default of 3 and Photo 1, 3 have a default of 1.
1: No removal applied.
2 – 5: Removal applied at the level specified here. The higher the setting
(level), the less clear the image will become (more texture removal). This
setting is only applied to the originals in SP 4921.
4926 1 Texture Removal (Copy) [0 ~ 6 / 1/step]
4926 3 Texture Removal (Scanner) [0 ~ 6 / 1/step]
Line Width Correction
4927* Adjusts the line width correction algorithm. Positive settings produce thicker
lines; negative settings produce thinner lines. This setting is only applied to the
originals in SP 4921.
4927 1 Line Width Correction (Copy) [–2 ~ 2 / 0 / 1/step]
4927 3 Line Width Correction (Scanner) [–2 ~ 2 / 0 / 1/step]
Independent Dot Erase
4928* Selects the dot erase level. Higher settings provide greater erasure. This
setting is only applied to the originals in SP 4921.
4928 1 Independent Dot Erase (Copy) [–2 ~ 2 / 0 / 1/step]
4928 3 Independent Dot Erase (Scanner) [–2 ~ 2 / 0 / 1/step]
Positive/Negative [0 = No, 1 = Yes]
4929* Inverts white and black. This setting is only applied to the originals in
SP 4921.
4929 1 Positive/Negative (Copy)
Sharpness-Edge [–2 ~ 2 / 0 / 1/step]
4930* Adjust the clarity. This setting is only applied to the originals in
SP 4921.
4930 1 Sharpness-Edge (Copy)
4930 3 Sharpness-Edge (Scanner)
Sharpness-Solid [–2 ~ 2 / 0 / 1/step]
4931* Adjust the clarity. This setting is only applied to the originals in
SP 4921.
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4931 1 Sharpness-Solid (Copy)
4931 3 Sharpness-Solid (Scanner)
Sharpness-Low ID [–2 ~ 2 / 0 / 1/step]
4932* Adjust the clarity. This setting is only applied to the originals in
SP 4921.
4932 1 Sharpness- Low ID (Copy)
4941* White Line Erase [0 ~ 2 / 1 / 1/step]
4941 1
Selects the white line erase level.
0: None, 1: Weak, 2: Strong
This setting is effective only Photo 1, Photo 3, Special 3 or Special 4 mode.
0: White line erase is not used, and white level correction is used instead·
This setting is applied regardless of what mode has been selected in SP 4921.
4942* Black Line Erase [0 ~ 3 / 2 / 1/step]
4942 1
Selects the black line erase level. This setting is effective only when originals
are scanned by the A(R)DF.
[0 = No / 1 = Very weak / 2 = Weak / 3 = Strong]
This setting is applied regardless of what mode has been selected in SP 4921.
SP5-XXX (Mode)
5001 All Indicators On
5001 1 All LEDs turn on. The LCD turns on or off every 3 seconds. Press the reset key
to end this program.
5045* [Accounting count] [0 to 1 / 1 / -]
0: Developments, 1: Pages
5045 1 Selects the counting method to either developments or prints.
5104* A3/DLT Double Count [0 = Enabled / 1 = Disabled /
2 = Disabled if the size is undetected]
5104 1 Selects whether the machine counts twice for each sheet of A3/11"x 17". If this
is set to “Yes” is selected, the total (mechanical) counter and the current user
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counter will both increment by two for each A3/11" x 17" sheet.
5113* Optional Counter Type
0: None
11: MF key card (Increment)
12: MF key card (Decrement)
5113 1 Selects the corresponding key for installed devices such as coin lock.
5120* Clr-OP Count Remv [0=Yes / 1=Standby only / 2=No]
5120 1
Determines under which conditions the copy job settings are reset when the key
counter is removed. With 0, the settings are cleared if the counter is removed at
the end of a job or midway through a job. With 1, they are only cleared if the
counter is removed at the end of a job. With 2, they are not cleared at all, under
either condition. With duplex copies, the job settings are always preserved,
regardless of the setting of this SP mode.
5121* Count Up Timing [0 = Feed In / 1 = Exit]
5121 1 Selects whether the key counter increments at time of paper feed-in or at time of
paper exit.
5127* APS Mode [0 = Enabled / 1 = Disabled]
5127 1 Enables or disables the APS mode..
5501* PM Alarm Interval (Printout) [0 ~ 9999 / 0 / 0K copies/step]
5501 1 Specifies when the PM alarm occurs.
5801 Memory Clear
5801 2 Engine ( p.174)
5802 Machine Free Run
5802 1 Starts a free run of both the scanner and the printer. Press "ON" to start; press
"OFF" to stop.
Input Check 5803
( p.176)
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Output Check 5804
( p.179)
5807* Area Selection
5807 1
Selects the display language group.
1 = Japan, 2 = North America, 3 = Europe, 4 = Taiwan, 5 = Asia,
6 = China, 7 = Korea
SP 5807 1 is not cleared by SP 5801 2 ( p.174).
5810* SC Code Reset
5810 1
Resets all level-A service call conditions, such as fusing errors. If the reset is
successful, the display shows "Completed." If the reset fails, an error message
shows.
5811* Serial Num Input
5811 1 Setting Sets the machine serial number. FA
5811 3 ID 2 Code Display Displays the ID 2 Code (used for NRS
5812* Service TEL
Service TEL (Telephone)
5812 1 Use this to input the telephone number of the service representative. (The
number is displayed when a service call condition occurs.) To input a dash,
press . To delete the current telephone number, press .
Service TEL (Facsimile)
5812 2 Use this to input the fax number printed on user counter reports. To input a
dash, press . To delete the current fax number, press .
5824 NVRAM Upload
5824 1 ( p.181)
5825 NVRAM Download
5825 1 ( p.181)
5827 Program Download
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5827 1 Downloads programs to the machine
5901 Printer Free Run
5901 1 Executes the free run. Press "ON" to start; press "OFF" to stop.
5902 Test Pattern Print
5902 1 ( p.187)
5907* Plug & Play Setting
5907 1
Selects the brand name and production name for the Plug and Play function.
These names are registered in the NVRAM. If the NVRAM becomes defective,
these names should be re-registered. Use the right-arrow or left-arrow key to
scroll through the list of brand names. To select a brand name, press the OK
key. An asterisk (*) indicates which manufacture is currently selected. (
p.174)
5918* A3/DLT Counter Display [0 = Off / 1 = On]
5918 1 Sets the key press display for the counter key. This setting has no relation to
(SSP) SP5-104 A3/DLT Double Count.
5990 SMC Print
5990 1 All
5990 2 SP
5990 3 User Program
5990 4 Logging Data
5990 5 Big font
( p.190)
5993 DFU
5993 1
5998 Memory Clear
5998 1 Memory Clear
SP6-XXX (Peripherals)
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6006* ADF Adjustment ( p.114
NOTE: Available menus depend on the machine model and its configuration.
ADF Adjustment (StoS/Front Regist) [–5.0 ~ +5.0 / 0.0 / 0.1 mm/step]
6006 1 Adjusts the side-to-side registration for the front side of the original, for ADF
mode. Use the key to select “+” or “–” before entering the value
ADF Adjustment (Leading Regist) [–5.0 ~ +5.0 / 0.0 / 0.1 mm/step]
6006 2 Adjusts the leading edge registration for ADF mode. Use the key to select
“+” or “–” before entering the value.
ADF Adjustment (Trailing Erase) [–3.0 ~ +3.0 / –1.0 / 0.1 mm/step]
6006 3 Adjusts the trailing edge erase margin for ADF mode. Use the key to select
“+” or “–” before entering the value.
ADF Adjustment (StoS/Rear Regist) [–5.0 ~ +5.0 / 0.0 / 0.5 mm/step]
6006 4 Adjusts the side-to-side registration for the rear side of duplex originals, for ADF
mode. Use the key to select “+” or “–” before entering the value.
ADF Adjustment (Sub-scan Magnif) [–0.9 ~ +0.9 / 0.0 / 0.1 %/step] 6006 5
Adjust the sub-scan magnification for the ADF.
ADF Adjustment (Original Curl Adj) [0 = No / 1 = Yes]
6006 6 Enables or disables the skew adjustment for the reverse sides of originals.
When you enable SP6-006-6, adjust the distance of the skew adjustment (SP
6006 7).
ADF Adjustment (Skew Correction) [–20 ~ +20 / 0 / 1 mm/step]
6006 7 Specifies the distance of the skew adjustment. SP 6006 7 is effective when you
enable SP 6006 6 (ADF Adjustment [Original Curl Adj]).
6009 ADF Free Run
6009 1 Performs an ADF free run. Press "ON" to start; press "OFF" to stop.
6010 Stamp Position Adjustment [–10 ~ +10 / 0 / 1 mm/step]
6010 1 Adjusts the stamp position in the sub-scan direction. for the fax mode.
6901 Display ADF/APS
6901 1 Displays the status of the ADF original size sensors ( p.191).
6910* ADF Shading Time [0 ~ 60 / 10 / 1 s/step]
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6910 1
Adjusts the interval used for the shading processing in the ADF mode. Light and
heat in the room may affect the scanner response. Reduce this setting if copy
quality indicates that the white level is drifting during ADF copy jobs.
SP7-XXX (Data Log)
7001* Total Operation
7001 1 Shows the total operation time (total drum rotation time).
7401* Counter–SC Total [0 ~ 9999 / 0 / 1/step]
7401 1 Shows how many times SC codes are generated.
7403* SC History
7403 1 Shows the histories of the latest 10 SC codes.
7502* Counter–Paper Jam [0 ~ 9999 / 0 / 1/step]
7502 1 Shows the total number of copy paper jams.
7503* Counter–Orgn Jam [0 ~ 9999 / 0 / 1/step]
7503 1 Shows the total number of original jams,
Counter-Each P Jam [0 ~ 9999 / 0 / 1/step] 7504*
Displays the total number of the paper jams classified by timing and location.
Counter-Each P Jam (At power on) 7504 1
Paper jam occurs at power on.
Counter-Each P Jam (Off-Regist NoFeed) 7504 10
Paper does not reach the registration sensor (from a paper tray).
Counter-Each P Jam (Off-1 Vertical SN) 7504 11
Paper does not reach the relay sensor.
Counter-Each P Jam (On-1 Vertical SN) 7504 12
Paper is caught at the relay sensor.
Counter-Each P Jam (Off-2 Vertical SN) 7504 21
Paper does not reach the vertical transport sensor.
7504 22 Counter-Each P Jam (On-2 Vertical SN)
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Paper is caught at the vertical transport sensor.
Counter Each P Jam (Off-3 Vertical SN)
7504 31 Paper does not reach the vertical transport sensor in the optional paper feed
unit.
Counter Each P Jam (On-3 Vertical SN) 7504 32
Paper is caught at the vertical transport sensor in the optional paper feed unit.
Counter-Each P Jam (Off-Regist Bypass) 7504 50
Paper does not reach the registration sensor (from the by-pass tray).
Counter-Each P Jam (Off-Regist Duplex)
7504 60 Paper does not reach the registration sensor during reverse-side printing (for
duplex printing).
Counter-Each P Jam (On-Regist SN) 7504 70
Paper is caught at the registration sensor.
Counter-Each P Jam (On-Exit SN) 7504 120
Paper is caught at the exit sensor (previous page).
Counter-Each P Jam (Off-Exit SN) 7504 121
Paper does not reach the exit sensor.
Counter-Each P Jam (On-Exit SN) 7504 122
Paper is caught at the exit sensor.
Counter-Each P Jam (Off-Dup Inverter) 7504 123
Paper does not reach the duplex inverter sensor (from the registration roller).
Counter-Each P Jam (On-Dup Inverter) 7504 125
Paper is caught at the duplex inverter sensor.
Counter-Each P Jam (Off-Dup Entrance) 7504 126
Paper does not reach the duplex entrance sensor.
Counter-Each P Jam (Off-Dup Entrance) 7504 127
Paper is caught at the duplex entrance sensor.
Counter-Each P Jam (Off-Duplex Exit) 7504 128
Paper does not reach the duplex exit sensor.
Counter-Each P Jam (On-Duplex Exit) 7504 129
Paper is caught at the duplex exit sensor.
Counter-Each P Jam (Off-1 bin Exit SN) 7504 130
Paper does not reach the one-bin tray.
7504 131 Counter-Each P Jam (On-1 bin Exit SN)
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Paper is caught at the one-bin tray.
Counter-Each O Jam [0 ~ 9999 / 0 / 1/step]
7505* Displays the total number of the original jams on the ADF that have occurred
at a certain timing or at a certain location.
Counter-Each O Jam (Off-Regist SN) 7505 210
The original does not reach the registration sensor.
Counter-Each O Jam (On-Regist SN) 7505 211
The original is caught at the registration sensor.
Counter-Each O Jam (Off-Relay SN) 7505 212
The original does not reach the exit sensor.
Counter-Each O Jam (On-Relay SN) 7505 213
The original is caught at the exit sensor.
Counter-Each O Jam (Off-Inverter SN) 7505 214
The original does not reach the reverse sensor.
Counter-Each O Jam (On Inverter SN) 7505 215
The original is caught at the reverse sensor.
Counter-Each O Jam (Insufficient gap)
7505 216 The distance between originals is not sufficient. This jam can occur when the
original is not of the standard size.
7507* Dsply-P Jam Hist
7507 1
Displays the latest 10 paper-jam history. The list below shows the possible 22
codes:
1, 10, 11, 12, 21, 22, 31, 32, 50, 60, 70, 120, 121, 122, 123, 125, 126, 127, 128,
129, 130, 131
The codes correspond to the menus of SP 7504. For example, the code 1
corresponds to SP 7504 1, and the code 10 corresponds to SP 7504 10.
7508* Dsply-O Jam Hist
7508 1
Displays the total number of the original-jams history. The following are the
possible seven codes:
210, 211, 212, 213, 214, 215, 216
The codes correspond to the menus of SP 7505. For example, the code 210
corresponds to SP 7505 210, and the code 211 corresponds to SP 7505 211.
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7801 Memory/Version/PN
Memory/Version (BICU) 7801 2
Displays the version of the BICU board
Memory/Version (ADF) 7801 5
Displays the P/N and suffix of the ADF ROM.
Memory/Version (Printer/Scanner) 7801 15
Displays the P/N and suffix of the Printer/Scanner ROM.
7803* Display–PM Count
7803 1 Displays the PM counter.
7804 Reset–PM Counter
7804 1 Resets the PM counter (SP 7803 1). When the program ends normally, the
message "Completed" is displayed.
7807 Reset–SC/Jam Counters
7807 1
Resets the SC, paper, original, and total jam counters. When the program ends
normally, the message "Completed" is displayed. SP 7807 1 does not reset the
following logs: SP 7507 (Display-Paper Jam History) and SP 7508
(Display-Original Jam History).
7808 Reset–Counters
7808 1
Resets all counters except for the management counters. The management
counters are the counters that are not changed by NVRAM Download (SP 5825
1) When the program ends normally, the message the message "Completed" is
displayed.
7810 Reset–Key Op Code
7810 1
Resets the key operator code. Use SP 7810 1 when the customer has forgotten
the key-operator code. When the program ends normally, the message
"Completed" is displayed, if the program ends abnormally, an error message is
displayed. If the customer forgets the key operator code. To specify a new
key-operator code, use the User Tools: System Settings Key Operator Tools
Key Operator Code On Enter Key Operator Code.
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7832* Display-Self-Diag
7832 1 Displays the SC codes and the number of their occurrences. Each number is in
the range of 0 to 9999.
Dsply–Info Count
7991* Displays the total operating time or the total number of operations. The time is
displayed in the following format: day:hour:minute:second.
Dsply–Info Count (Dsply-Timer Count)
7991 1 The total of the time when the main switch is kept on (excluding the time when
the safety switch is off ( p.221).
Dsply–Info Count (Dsply-APS Working) 7991 2
The total of the time when the APS is working.
Dsply-Info Count (Dsply-ID S Work) 7991 3
The total of the time when the ID sensor is working.
Dsply-Info Count (Dsply-Dev Counter) 7991 4
The total number of paper outputs.
Dsply-Info Count (Dsply-ID Er Count) 7991 5
The total number of ID-sensor errors.
7992* Reset–Info Count
Reset–Info Count (Reset-Timer Count) 7992 1
Clears the counter of SP 7991 1.
Reset-Info Count (Reset-ID Er Count) 7992 5
Clears the counter of SP 7991 5.
SP8-XXX (History)
8191* T: Total Scan PGS [0 9999999 / 0 / 1 sheet/step]
8191 1 Displays the total number of scanned pages. Both sides are counted when the
front and reverse sides of an original (fed from the ADF) are scanned.
8192* C: Total Scan PGS [0 9999999 / 0 / 1 sheet/step]
8192 1 Displays the total number of scanned copies. Both sides are counted when the
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front and reverse sides of an original (fed from the ADF) are scanned.
8195* S: Total Scan PGS [0 9999999 / 0 / 1 sheet/step]
8195 1 Displays the total number of scanned originals. Both sides are counted when
the front and reverse sides of an original (fed from the ADF) are scanned.
8201 T: L Size Scan PGS [0 9999999 / 0 / 1 sheet/step]
8201 1 Displays the total number of scanned originals (by copying jobs and scanning
jobs) classified by paper size. The following size is counted: A3/DLT and larger.
8205 S: L Size Scan PGS
(A3/DLT, Larger) [0 9999999 / 0 / 1 sheet/step]
8205 1 Displays the total number of scanned originals (by scanning jobs) classified by
paper size. The following size is counted: A3/DLT and larger.
8221* ADF Org Feed [0 9999999 / 0 / 1 sheet/step]
ADF Org Feed (Front) 8221 1
Displays the total number of scanned front sides of originals fed from the ADF.
ADF Org Feed (Back)
8221 2 Displays the total number of scanned reverse sides of originals fed from the
ADF.
8291* T: Scan PGS/TWAIN [0 9999999 / 0 / 1 sheet/step]
8291 1 Displays the total number of sheets stamped by the ADF in scanning jobs.
8293* F: Scan PGS/TWAIN [0 9999999 / 0 / 1 sheet/step]
8293 1 Displays the total number of sheets stamped by the ADF in fax jobs.
8381* T: Total Prt PGS [0 9999999 / 0 / 1 sheet/step]
8381 1 Displays the print count of all application programs.
8382* C: Total Prt PGS [0 9999999 / 0 / 1 sheet/step]
8382 1 Displays the print count of the copier application program.
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8383* F: Total Prt PGS [0 9999999 / 0 / 1 sheet/step]
8383 1 Displays the print count of the fax application program.
8384* P: Total Prt PGS [0 9999999 / 0 / 1 sheet/step]
8384 1 Displays the print count of the printer application program.
8385* S: Total Prt PGS [0 9999999 / 0 / 1 sheet/step]
8385 1 Displays the print count of the scanner application program.
8387* O: Total Prt PGS [0 9999999 / 0 / 1 sheet/step]
8387 1 Displays the print count of application programs other than copier, printer, or
scanner programs (such as external application programs).
8391* L size Prt PGS (A3/DLT, Larger) [0 9999999 / 0 / 1 sheet/step]
8391 1 Displays the print count of the AS/DLT size or larger paper.
8411* Prints/Duplex [0 9999999 / 0 / 1 sheet/step]
8411 1 Displays the total count of the duplex printing.
C: PrtPGS/Dup Comb [0 9999999 / 0 / 1 sheet/step]
8422* Displays the total print count of copier application classified by
combination/duple type.
8422 1 C: PrtPGS/Dup Comb (Simplex >
Duplex)
Original Print
8422 2 C: PrtPGS/Dup Comb (Duplex >
Duplex)
Original Print
8422 4 C: PrtPGS/Dup Comb (Simplex
Combine)
Original Print
8422 5 C: PrtPGS/Dup Comb (Duplex
Combine)
Original Print
8422 6 C: PrtPGS/Dup Comb (2>) Original Print
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8422 7 C: PrtPGS/Dup Comb(4>)
Original Print
T: PrtPGS/Ppr Size [0 9999999 / 0 / 1 sheet/step]
8441* Displays the total print count classified by paper size. This is the total for all
application programs.
8441 1 (A3)
8441 2 (A4)
8441 3 (A5)
8441 4 (B4)
8441 5 (B5)
8441 6 (DLT)
8441 7 (LG)
8441 8 (LT)
8441 9 (HLT)
8441 254 Other (Standard)
8441 255 Other (Custom)
C: PrtPGS/Ppr Size [0 9999999 / 0 / 1 sheet/step] 8442*
Displays the number of pages printed by the copier application program.
8442 1 (A3)
8442 2 (A4)
8442 3 (A5)
8442 4 (B4)
8442 5 (B5)
8442 6 (DLT)
8442 7 (LG)
8442 8 (LT)
8442 9 (HLT)
8442 254 Other (Standard)
8442 255 Other (Custom)
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P: PrtPGS/Ppr Size [0 9999999 / 0 / 1 sheet/step] 8445*
Displays the number of pages printed by the copier application program.
8445 1 (A3)
8445 2 (A4)
8445 3 (A5)
8445 4 (B4)
8445 5 (B5)
8445 6 (DLT)
8445 7 (LG)
8445 8 (LT)
8445 9 HLT
8445 254 Other (Standard)
8445 255 Other (Custom)
C: PrtPGS/Ppr Tray [0 9999999 / 0 / 1 sheet/step] 8451*
Displays the total print count classified by paper source.
8451 1 Bypass Tray
8451 2 Tray 1
8451 3 Tray 2
8451 4 Tray 3
8451 5 Tray 4
T: PrtPGS/Ppr Type [0 9999999 / 0 / 1 sheet/step]
8461* Displays the total print count classified by paper size. This is the total for all
application programs.
8461 1 Normal
8461 4 Thick
8461 7 OHP
8461 8 Other
C: PrtPGS/Ppr Type [0 9999999 / 0 / 1 sheet/step] 8462*
Displays the total print count classified by paper size.
8462 1 Normal
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8462 4 Thick
8462 7 OHP
8462 8 Other
P: PrtPGS/Ppr Type [0 9999999 / 0 / 1 sheet/step]
8464* Displays the total print count classified by paper size. This is the total for all
application programs.
8464 1 Normal
8464 4 Thick
8464 7 OHP
8464 8 Other
8522* C: PrtPGS/FIN (Sort) [0 9999999 / 0 / 1 sheet/step]
8522 1 Displays the total number of printing classified by paper size.
SP9-XXX (Etc.)
Not used in this machine.
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Using SP Modes
Adjusting Registration and Magnification
To adjust the registration and magnification, you need to use several service programs. The
chart shows an example of the procedure to adjust the machine in the basic configuration.
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ID Sensor Error Analysis (SP 2221)
The image quality may become very bad when the ID sensor does not operate properly.
However, there is no such SC code that indicates ID-sensor malfunction; instead, SP 2221
shows you some information on the ID sensor. Check this information when the image quality
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is not very good.
The table lists the information shown with SP 2221 (ID Sensor Error Analysis).
SP Error condition Possible cause Remarks
SP 2221 1 Vsg
(VG in the display) Vsg < 2.5V or
(Vsg – Vsp) < 1.00V
ID sensor defective
ID sensor dirty
Drum not charged
SP 2221 2 Vsp
(VP in the display) Vsp > 2.5V or
(Vsg – Vsp) < 1.00V
Toner density very low
ID sensor pattern not
created
SP 2221 3 Power
(PW in the display)
Vsg < 3.5V
when maximum
power (979) is
applied
ID sensor defective
ID sensor dirty
Drum not get charged
Power source for the
ID-sensor light
SP 2221 4 Vsdp No Error Conditions
SP 2221 5 Vt Vt > 4.5V or
Vt < 0.2V TD sensor defective
SP 2221 6 Vts
Display APS Data (SP 4301 1)
- Sensor Positions - The APS (auto paper select) sensors are arranged as shown in the diagram.
- Reading the Data -
Example 1
Paper Size: 11000000 81/2x13 �
DF Open: 1
Example 2
Paper Size: 00110000 A4 �
DF Open: 0
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Example 1 indicates that the paper size and its orientation is "81/2 x 13 SEF," and that the
document feeder (or platen cover) is open. Example 2 indicates that the paper size and its
orientation is "A4 LEF," and that the document feeder (or platen cover) is closed.
The "Paper Size" data starts with eight digits. The first digit indicates the output of L2; the
second digit, L1; the third digit, W2; and the fourth digit, W1. The other four digits (from the
fifth through the eighth) are always "0000." In Example 1, the APS sensors L2 and L1 detect
paper (W2 and W1 do not).
In Example 2, APS sensors W2 and W1 detect paper (L2 and L1 do not). The paper size and
its orientation is based on the outputs of these four APS sensors.
The "DF Open" data shows "1" or "0," indicating if the document feeder (or platen cover) is
open or closed respectively. The data is based on the output of the platen cover sensor [A].
Memory Clear
The basic machine (the machine without the optional controller box) stores all the data in the
NVRAM on the BICU. The data is cleared by SP 5801 2 (see exceptions)
002 Main Motor Reverse
003 Quenching Lamp
The GDI machine (the machine with the optional controller box) stores the engine data in the
NVRAM on the BICU, and stores the other data in the NVRAM on the optional controller. To
distinguish between the engine data and the other data, see SP 5801 3 through 15. This
service program (SP 5801) handles the controller data. Any data that is not handled by SP
5801 is the engine data. The data in the BICU NVRAM (engine data) is cleared by SP 5998 1
while the data in the controller NVRAM (controller data) is cleared by SP 5801-xxx (see
exceptions)
002 Main Motor Reverse
003 Quenching Lamp
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Machine Data NVRAM Cleared by Remarks
Basic All data BICU SP 5801 2
Engine data BICU SP 5998 1
Any data other
than controller
data
GDI
Controller data Controller SP 5801-xxx
SCS, IMH, MCS,
Copier
application,
Printer
application,
Scanner
application, Web
service/network
application, NCS,
R-Fax, DCS, UCS
- Exceptions - SP 5801 2 (basic machine) and SP 5998 1 (GDI machine) clears most of the settings and
counters stored in the NVRAM on the BICU (the values return to their default values).
However, the following settings are not cleared:
SP 5807 (Area Selection)
SP 5811 1 (Serial Num Input [Code Set])
SP 5811 3 (Serial Num Input [ID2 Code Display])
SP 5812 1 (Service TEL [Telephone])
SP 5812 2 (Service TEL [Facsimile])
SP 5907 (Plug & Play)
SP 7 (Data Log)
SP 8 (History)
Use SP 5802 2 (basic machine) or SP 5998 1 (GDI machine) after you have replaced the
BICU NVRAM or when the BICU NVRAM data is corrupted. When the program ends
normally, the message "Completed" shows. When you have replaced the controller NVRAM
or when the controller NVRAM data is corrupted, use SP 5801 1. The message is the same
as the basic machine.
- With Flash Memory Card
1. Upload the NVRAM data to a flash memory card ( p.181). 2. Print out all SMC data lists ( p.190).
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Be sure to print out all the lists. You have to manually change the SP settings if
the NVRAM data upload ends abnormally.
3. Select SP 5801 2. 4. Press the OK key. 5. Select "Execute." The messages "Execute?" followed by "Cancel" and "Execute"
shows. 6. Select "Execute." 7. When the program has ended normally, the message "Completed" shows. If the
program has ended abnormally, an error message shows. 8. Press the cancel key. 9. Turn the main switch off and on. 10. Download the NVRAM data from a flash memory card ( p.181)
- Without Flash Memory Card - 1. Print out all SMC data lists ( p.190). 2. Select SP 5-801 (basic machine) or SP 5998 1 3. Press the OK key. 4. Select "Execute." The messages "Execute?" followed by "Cancel" and "Execute"
show. 5. Select "Execute." 6. When the program has ended normally, the message "Completed" is displayed. If
the program has ended abnormally, an error message shows. 7. Turn the main switch off and on. 8. Adjust the printer and scanner registration and magnification ( p.111). 9. Refer to the SMC lists, and enter any values that differ from the factory settings.
Double-check the values for SP 4901. 10. Adjust the standard white level (SP 4428). 11. Initialize the TD sensor (SP 2214). 12. Check the copy quality and the paper path.
Input Check (SP 5803)
- Conducting an Input Check - 1. Select SP 5803. 2. Select the number (see the table below) corresponding to the component. 3. Select "Execute." The copy mode is activated.
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4. The sign "01H" or "00H" show (see the table below). - Input Check Table -
Num. Sensor/Switch 01H 00H
001 Safety SW Open Closed
002 Safety SW-LD 5V Open Closed
003 Right Cover SW Open Closed
004 Right Low Cover SW Open Closed
005 Tray Cover SW Open Closed
006 Upper Relay S Paper detected Not detected
007 Lower Relay S Paper detected Not detected
008 Vertical Trans S Paper detected Not detected
009 Registration Sensor Paper detected Not detected
010 Exit Sensor Paper detected Not detected
011 Duplex Inverter S Paper detected Not detected
012 Duplex Entrance S Paper detected Not detected
013 Duplex Exit S Paper detected Not detected
014 By-pass PE S Paper detected Not detected
015 By-pass P Size S *1
016 Upper PE S Paper detected Not detected
017 Lower PE S Paper detected Not detected
018 Upper P Size SW *1
019 Lower P Size SW *1
020 BK-Upper Paper End S Paper detected Not detected
021 BK-Lower Paper End S Paper detected Not detected
022 BK-Up P Size SW *1
023 BK-Low P Size SW *1
024 BK-Up P Height S *2
025 BK-Low P Height S *2
026 BK-Upper Lift S At upper limit Not at upper limit
028 BK type *3
030 Duplex Installed Installed Not installed
031 Lower Lift S At upper limit Not at upper limit
032 Main M Lock Locked Not locked
033 Polygon M Lock Locked Not locked
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Num. Sensor/Switch 01H 00H
034 BK-Lift M Lock Locked Not locked
035 Total CO Install Installed Not installed
036 Key CO Install Installed Not installed
037 L-Synchronization Detected Not detected
038 DF-Position S Detected Not detected
039 DF-Cover Open S Detected Not detected
040 DF-Original Set S Detected Not detected
041 DF-Registration S Detected Not detected
042 DF-Exit S Detected Not detected
043 DF-Trailing S Detected Not detected
044 DF-Reverse S Detected Not detected
045 Platen Cover S Open Closed
046 1 bin Installed Installed Not installed
047 1 bin Exit S Paper detected Not detected
048 1 bin Paper S Paper detected Not detected
049 1 bin Tray S Open Closed
050 Fan Motor Lock High speed Not high speed
051 2 Tray BK Install Installed Not installed
053 HP Sensor Detected Not detected
054 Duplex Fan M Lock Locked Not locked
*1 Paper Size
Copier 00 01 02 03 04 05 06 07
Europe Not set A4 LEF 8Hx13
SEF A4 SEF A5 LEF LT LEF -- A3 SEF
North
America Not set A4 LEF
8Hx13
SEF LT SEF LG SEF LT LEF -- DLT SEF
China Not set A4 LEF B5 LEF A4 SEF A5 LEF B4 SEF -- A3 SEF
Paper Feed
Unit 00 01 03 04 05 0A 0C 0E 0F
Europe Not set LT SEF LG SEF A4 LEF -- DLT A4 SEF LT LEF A3 SEF
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Paper Feed
Unit 00 01 03 04 05 0A 0C 0E 0F
SEF
North
America Not set LT SEF LG SEF A4 LEF --
DLT
SEF A4 SEF LT LEF A3 SEF
China Not set LT SEF LG SEF A4 LEF -- DLT
SEF A4 SEF LT LEF A3 SEF
By-Pass
Tray 04 0C 08 00 01 03 02 06
Europe A5 SEF A5 SEF A5 SEF A5 SEF8x13
SEF A4 SEF A3 SEF A3 SEF
North
America
HLT
SEF
HLT
SEF
HLT
SEF
HLT
SEF
HLT
SEF LG SEF
DLT
SEF
DLT
SEF
China B6 SEF B6 SEF A5 SEF A5 SEF B5 SEF A4 SEF B4 SEF A3 SEF
- *2 Paper Amount -
10 Near end
11 About 25%
00 About 75%
00 About 100%
- *3 Available Paper Feed Unit -
00 None
20 2-tray paper feed unit
30 1-tray paper feed unit
Output Check (SP 5804)
- Conducting an Output Check –
To prevent mechanical or electrical damage, do not keep an electrical component on
for a long time.
1. Select SP 5804. 2. Select the number (see the table below) corresponding to the component.
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3. Select "ON." 4. To stop the operation, select "OFF."
- Output Check Table - Number 005, 006, 040, and 041 may not respond when the fusing temperature is high.
Num. Component
001 Main Motor Forward
002 Main Motor Reverse
003 Quenching Lamp
004 Toner Supply Motor Forward
005 Fan Motor High
006 Fan Motor Low
007 Registration Clutch
008 By-pass Feed Clutch
009 Upper Feed Clutch
010 Lower Feed Clutch
011 BK-Low Lift Motor Up
012 BK-Low Lift Motor Down
013 Relay Clutch
014 BK-Relay Clutch
015 BK-Upper Feed Clutch
016 BK-Lower Feed Clutch
017 BK-Lift Motor
018 BK-Up Lift Motor Up
019 BK-Up Lift Motor Down
020 Duplex Inv Motor Reverse
021 Duplex Inv Motor Forward
022 Duplex Trans Motor
023 Duplex Gate Solenoid
024 Duplex Inv Motor Hold
025 Dup Trans Motor Hold
026 Polygon Motor
027 Polygon M/LD
028 LD
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Num. Component
029 DF-Transport Motor
030 DF-Feed Motor
031 DF-Feed Clutch
032 DF-Pickup Solenoid
033 DF-Stamp Solenoid
034 DF-Gate Solenoid
035 1 bin Gate Solenoid
036 1 bin Tray Motor
037 1 bin Tray Motor Hold
038 Fusing Solenoid
040 Duplex Fan Motor High
041 Duplex Fan Motor Low
Serial Number Input (SP 5811)
- Specifying Characters - SP 5811 1 specifies the serial number. For the basic machine (the machine without the
optional controller), you use the numeric keypad. For the GDI machine (the machine with the
optional controller), you use the numeric keypad and the optional operation panel.
A serial number consists of 11 characters. You can change each character by pressing one of
the first 11 keys on the numeric keypad ( , , , ... , , ).
For example, when you press the key, the first character of the serial number changes as
follows:
0 1 2 ... 8 9 A B ... X Y Z.
When you press the key, the second character changes likewise.
You can specify a digit ("0" to "9") or a capital letter ("A" to "Z") for the first four characters of
a serial number, and you can specify a digit in the other seven characters (not capital letters).
NVRAM Data Upload/Download (SP 5824/5825)
This procedure is for the basic machine only.
Make sure that you turn off the main switch before inserting or removing a flash
memory card. Installing or removing a flash memory card while the main switch is on
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may damage the BICU or memory.
- Overview - You can copy the data from the NVRAM to a flash memory card (NVRAM Upload), or from a
flash memory card to the NVRAM (NVRAM download).
SP 5824 1
(NVRAM Upload)
From the BICU to a flash
memory card
SP 5825 1
(NVRAM Download)
From a flash memory
card to the BICU
You should execute NVRAM Upload before replacing the NVRAM or before executing SP
5801 2 ( p.174). You can copy back the data from the flash card to the NVRAM as
necessary.
- NVRAM Upload (SP 5824 1) -
1. Turn off the main switch. 2. Remove the card cover [B] (1 rivet). 3. Turn the face of the flash memory card [A] ("A" is printed on it) toward your
left-hand side, and insert it into the card slot. 4. Turn on the main switch. 5. Start the SP mode and select SP 5824 1. 6. The machine erases the settings on the card (if any), then writes the machine’s
settings to the flash memory card. This takes about 20 seconds. If uploading fails, an error message appears. If an error message appears, retry the upload
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procedure. 7. Turn off the main switch. 8. Remove the memory card.
- NVRAM Download (SP 5825 1) - SP 5825 1 copies the data from the flash memory card to the NVRAM. The following data is
NOT copied (the data in the NVRAM remains unchanged).
SP 8221 1 (ADF Original Feed [Front])
SP 8221 2 (ADF Original Feed [Back])
SP 8381 1 (Total: Total Printer Pages)
SP 8382 1 (Copy Application: Total Print Pages)
SP 8391 1 (Large Size Print Pages [A3/DLT, Larger])
SP 8411 1 (Prints Duplex)
1. Turn off the main switch. 2. Remove the card cover [B] (1 rivet). 3. Turn the face of the flash memory card [A] ("A" is printed on it) toward your
left-hand side, and insert it into the card slot. 4. Turn on the main switch. 5. Start the SP mode and select SP 5825 1. 6. The machine erases the current settings, then writes the new settings onto the
NVRAM on the BICU board. This takes about 1 second. If downloading fails, an error message appears. If an error message appears, retry the download procedure.
7. Turn off the main switch. 8. Remove the memory card.
Firmware Update Procedure
This section shows how to update the firmware.
The machine has the following firmware programs
Firmware Type SP Mode Version
Engine (BICU) 7801 2 B2435581 Ver 0.04 EXP
GDI (Printer/Scanner) 7801 15 A.001
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Engine (BICU) Firmware Update Procedure
1. Turn the main switch off. 2. Remove the card cover [B] (1 rivet). 3. Insert the flash memory card [A].
4. Press down the power switch on the operation panel and hold it, and turn on the
main switch. 5. Select "Execute" [C].
6. Do not touch any key while the message "Load Status..." shows. This message
indicates that the program is running.
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7. Make sure the message "End Sum..." shows. This message indicates that the
program has ended normally. 8. Turn off the main switch. 9. Remove the flash memory card. 10. Replace the card cover [B] (1 rivet). 11. Turn the main switch on. 12. Check the operation. GDI (Printer Scanner) Update Procedure
1. Turn the main switch off. Remove the slot cover [A] (1 x )
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2. Insert the flash memory card [B] as shown above
3. Turn on the main power switch Push the printer application key [C]
4. Push the OK key [D] and then push Execute.
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Do not turn the machine off while the message “Now Writing” shows. This message
indicates the program is running.
Make sure the message “Completed” shows. This message indicates the program
has successfully ended.
5. Turn off the main switch Remove the flash memory card Replace the slot cover [A] (1 x )
Test Pattern Print (SP 5902 1)
- Executing Test Pattern Printing - 1. Specify the pattern number and press the OK key. 2. Press the copy start key. The copy mode is activated 3. Specify copy settings and press the key. 4. To return to the SP mode, press the key.
- Test Patterns -
Test Patterns Using VCU
No. Pattern
0 (No print)
1 Vertical Lines (Single Dot)
2 Horizontal Lines (Single Dot)
3 Vertical Lines (Double Dot)
4 Horizontal Lines (Double Dot)
5 Grid Pattern (Single Dot)
6 Grid Pattern (Double Dot)
7 Alternating Dot Pattern
8 Isolated one dot
9 Black Band (Horizontal)
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Test Patterns Using VCU
10 Trimming Area
11 Argyle Pattern (Single Dot)
12 Grayscales (Horizontal)
13 Grayscales (Vertical)
14 Grayscales (Vertical/Horizontal)
15 Grayscales (Vertical/Horizontal Overlay)
16 Grayscales With White Lines (Horizontal)
17 Grayscales with White Lines (Vertical)
18 Grayscales with White Lines (Vertical/Horizontal)
Test Patterns Using IPU
No. Pattern
30 Vertical Lines (Single Dot)
31 Horizontal Lines (Single Dot)
32 Vertical Lines (Double Dot)
33 Horizontal Lines (Double Dot)
34 Isolated Four Dots
35 Grid Pattern (Double Dot)
36 Black Band (Vertical, 1024 Dots)
37 Grayscales (Horizontal, 512 Dots)
38 Grayscales (Vertical, 256 Dots)
39 ID Patch
40 Cross
41 Argyle Pattern (128-Dot Pitch)
42 Square Gradation (64 Grades)
43 Square Gradation (256 Grades)
44 Grayscales (Horizontal, 32-Dot Width)
45 Grayscales (Vertical, 32-Dot Width)
46 Trimming Area (A3)
47 A4 Gradation Patches 1 (128 Grades)
48 A4 Gradation Patches 2 (128 Grades)
49 Trimming Area (A4)
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Test Patterns Using SBU
No. Pattern
51 Grid Pattern (double dot)
52 Gray scale 1 (256 grades)
53 Gray scale 2 (256 grades)
Paper Jam Counters (SP 7504)
The table lists the menu numbers (the last three digits of SP 7504 XXX) and the paper jam
timings and locations.
Code
001 Paper jam occurs at power on.
010 Paper does not reach the registration sensor (from a paper tray).
011 Paper does not reach the relay sensor.
012 Paper is caught at the relay sensor.
021 Paper does not reach the vertical transport sensor.
022 Paper is caught at the vertical transport sensor.
031 Paper does not reach the vertical transport sensor in the optional paper feed
unit.
032 Paper is caught at the vertical transport sensor in the optional paper feed unit.
050 Paper does not reach the registration sensor (from the by-pass tray).
060 Paper does not reach the registration sensor during reverse-side printing (for
duplex printing).
070 Paper is caught at the registration sensor.
120 Paper is caught at the exit sensor (previous page).
121 Paper does not reach the exit sensor.
122 Paper is caught at the exit sensor.
123 Paper does not reach the duplex inverter sensor (from the registration roller).
125 Paper is caught at the duplex inverter sensor.
126 Paper does not reach the duplex entrance sensor.
127 Paper is caught at the duplex entrance sensor.
128 Paper does not reach the duplex exit sensor.
129 Paper is caught at the duplex exit sensor.
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Code
130 Paper does not reach the one-bin tray.
131 Paper is caught at the one-bin tray.
SMC Print (SP 5990)
SP 5990 outputs machine status lists.
1. Select SP 5990. 2. Select a menu:
Basic machine: 001 All, 002 SP, 003 UP, 004 Log, or 005 Big Font
GDI machine: 001 All (Data List), 002 SP (Mode Data List), 003 User Program, 004
Logging Data, 005 Diagnostic Report, 006 Non-Default, 007 NIB Summary, 008 Net
File Log, 021 Copier User Program, 022 Scanner SP, 023 Scanner User Program,
040 Parts Alarm Counter Print, 064 Normal Count Print, 065 User Code Counter,
066 Key Operator Counter, 067 Contact List Print, 069 Heading1 print, 071
Heading3 print, 072 Group List Print, 128 ACC Pattern, 129 User Color Pattern, or
160:ACC Pattern Scan
The output given by the menu "Big Font" is suitable for faxing.
3. Press the "Execute" key. Basic machine: The copy mode is activated
Specify copy settings and press the key. The machine status lists is output.
GDI machine: The machine status list is output.
4. To return to the SP mode, press the key.
Original Jam History Display (SP 7508)
- Viewing the Copy Jam History - You can view the information on the most recent 10 events. The information on older events
is deleted automatically.
The information on jam history is saved in the NVRAM.
1. Select SP 7508. 2. Select one of the menu items ("Latest 1" through Latest 10"). 3. Press the OK key. The summary of the jam history shows. 4. To view more information, select "Detail."
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Jam History Codes
Code Meaning
210 Original does not reach the registration sensor.
211 Original caught at the registration sensor.
212 Original does not reach the original exit sensor.
213 Original caught at the original exit sensor.
214 Original does not reach the original reverse sensor.
215 Original caught at the original reverse sensor.
ADF APS Sensor Output Display (SP 6901)
- Sensor Positions -
Large to Small
W1 1 0 0 1
W2 0 0 1 1
- Reading Data -
Paper Size W1 W2 L1 L2
NA EU/AA
0 0 0 0 — B5 LEF
0 0 1 1 11" x 17" B4
0 1 0 0 81/2" x 51/2" LEF A5 LEF
0 1 1 0 81/2" x 11" SEF A4 SEF
1 1 1 1 81/2" x 14" 81/2" x 13"
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1 0 0 0 11" x 81/2" LEF A4 LEF
1 0 1 1 11" x 17" A3
1 1 0 0 51/2" X 81/2" SEF A5 SEF
1 1 1 0 — B5 SEF
1: Detected
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Detailed Section Descriptions
Overview
Component Layout
The above illustration is the B269/B277 model.
B245/B268/B276: No duplex unit, one paper tray
1. 2nd Mirror
2. Exposure Lamp
3. 1st Mirror
4. Exposure Glass
5. Original Width Sensors
6. Original Length Sensors
7. Lens Block
8. SBU
9. Exit Sensor
10. Scanner Motor
21. Registration Roller
22. Registration Sensor
23. By-pass Tray
24. Lower Transport Roller
25. Upper Relay Roller
26. Relay Sensor
27. Lower Relay Roller
28. Vertical Transport Sensor
29. Paper Feed Roller
30. Paper End Sensor
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11. Inverter Roller
12. Duplex Inverter Sensor
13. Duplex Entrance Sensor
14. Hot Roller
15. Upper Transport Roller
16. Pressure Roller
17. OPC Drum
18. Middle Transport Roller
19. Duplex Exit Sensor
20. Image Density Sensor
31. Bottom Plate
32. PCU
33. Development Roller
34. WTL
35. Polygon Mirror Motor
36. Laser Unit
37. Toner Supply Bottle Holder
38. Exit Roller
39. 3rd Mirror
40. Scanner HP Sensor
Paper Path
The B269/B277 model has a duplex unit mounted on the right side of the machine.
All models have a by-pass tray.
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Drive Layout
1. Scanner Motor
2. Main Motor
3. Hot Roller
4. OPC Drum
5. Development Roller
6. Relay Clutch
7. Lower Paper Feed Clutch
8. By-pass Feed Clutch
9. Upper Paper Feed Clutch
10. Registration Clutch
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Board Structure
Block Diagram
Only B269/B277 models contain the duplex unit.
The one-bin tray is for models B268/B269 (with the optional controller box).
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BICU (Base Engine and Image Control Unit)
The main board controls the following functions:
Engine sequence
Timing control for peripherals
Image processing, video control
Operation control, system control (Basic machine only)
Machine control
Drive control for the sensors, motors, and clutches of the printer and scanner
High voltage supply board control
Serial interfaces with peripherals
Fusing control
SBU (Sensor Board Unit)
The SBU deals with the analog signals from the CCD and converts them into digital signals.
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Copy Process Overview
1. Exposure
A xenon lamp exposes the original. Light reflected from the original passes to the CCD,
where it is converted into an analog data signal. This data is converted to a digital signal,
processed and stored in the memory. At the time of printing, the data is retrieved and
sent to the laser diode.
2. Drum Charge In the dark, the charge roller gives a negative charge to the organic photo-conductive
(OPC) drum. The charge remains on the surface of the drum because the OPC layer has
a high electrical resistance in the dark.
3. Laser Exposure The processed data scanned from the original is retrieved from the memory and
transferred to the drum by a laser beam, which forms an electrical latent image on the
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drum surface. The amount of charge remaining as a latent image on the drum depends
on the laser beam intensity, which is controlled by the BICU board.
4. Development The magnetic developer brush on the development roller comes in contact with the latent
image on the drum surface. Toner particles are electrostatically attached to the areas of
the drum surface where the laser reduced the negative charge on the drum.
5. ID Sensor The laser forms a sensor pattern on the drum surface. The ID sensor measures the
reflectivity of the pattern. The output signal is one of the factors used for toner supply
control. Also, the ID sensor measures the reflectivity of the drum surface. The output
signal is used for charge roller voltage control.
6. Image Transfer Paper is fed to the area between the drum surface and the transfer roller at the proper
time for aligning the copy paper and the developed image on the drum surface. Then, the
transfer roller applies a high positive charge to the reverse side of the paper. This
positive charge pulls the toner particles from the drum surface onto the paper. At the
same time, the paper is electrostatically attracted to the transfer roller.
7. Paper Separation Paper separates from the drum as a result of the electrostatic attraction between the
paper and the transfer roller. The discharge plate (grounded) helps separate the paper
from the drum.
8. Cleaning The cleaning blade removes any toner remaining on the drum surface after the image
transfers to the paper.
9. Quenching The light from the quenching lamp electrically neutralizes the charge on the drum
surface.
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Scanning
Overview
1. Exposure Lamp
2. 1st Scanner
3. Exposure Glass
4. Lens Block
5. Scanner Motor
6. Original Length Sensor
7. Original Width Sensors
8. Scanner HP Sensor
The original is illuminated by the exposure lamp (a xenon lamp). The image is reflected onto
a CCD (charge coupled device) on the lens block via the 1st, 2nd, and 3rd mirrors, and
through the lens on the lens block.
The 1st scanner consists of the exposure lamp, a reflector, and the 1st mirror.
A lamp stabilizer energizes the exposure lamp. The light reflected by the reflector is of almost
equal intensity, to reduce shadows on pasted originals.
An optics anti-condensation heater is available as an option. It can be installed on the left
side of the scanner. It turns on whenever the power cord is plugged in.
Lamp Stabilizer Fuse
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Rating Manufacturer Type No.
ICP1 DC50 V/1.5 A ROHM CO.,LTD ICP–N38
Scanner Drive
A stepper motor drives the 1st and 2nd scanners [A, B]. The 1st scanner is driven by the
scanner drive motor [C], drive gear through the timing belt [D], scanner drive pulley [E],
scanner drive shaft [F], and two timing belts [G]. The 2nd scanner is driven through the 1st
scanner and two timing belts [H].
- Book mode - The BICU controls and operates the scanner drive motor. In full size mode, the 1st scanner
speed is 100 mm/s during scanning. The 2nd scanner speed is half that of the 1st scanner.
In reduction or enlargement mode, the scanning speed depends on the magnification ratio.
The returning speed is always the same, whether in full size or magnification mode. The
image length change in the sub scan direction is done by changing the scanner drive motor
speed, and in the main scan direction it is done by image processing on the BICU board.
Magnification in the sub-scan direction can be adjusted by changing the scanner drive motor
speed using SP 4008. Magnification in the main scan direction can be adjusted using SP
4009.
- ADF mode - The scanners are always kept at their home position (the scanner HP. sensor [I] detects the
1st scanner) to scan the original. The ADF motor feeds the original through the ADF. In
reduction/enlargement mode, the image length change in the sub-scan direction is done by
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changing the ADF motor speed. Magnification in the main scan direction is done in the BICU
board, like for book mode.
Magnification in the sub-scan direction can be adjusted by changing the ADF motor speed
using SP 6006 5. In the main scan direction, it can be adjusted with SP 4009, like for book
mode.
Original Size Detection in Platen Mode
In the optics cavity for original size detection, there are four reflective sensors. The original
width sensors [A] detect the original width, and the original length sensors [B] detect the
original length. These are the APS (Auto Paper Select) sensors. Each APS sensor is a
reflective photosensor.
While the main switch is on, these sensors are active and the original size data is always sent
to the CPU. However, the CPU checks the data only when the platen cover sensor [C] is
activated. This is when the platen is positioned about 15 cm above the exposure glass, for
example while it is being closed. The CPU can recognize the original size from the
combination of on/off signals from the APS sensors.
If the copy is made with the platen fully open, the CPU decides the original size from the
sensor outputs when the Start key is pressed.
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Original Size Length Sensors Width Sensors
A4/A3 version LT/DLT version L2 L1 W2 W1
SP 4301
display
A3 11" x 17" 1 1 1 1 11110000
B4 8.5" x 14" 1 1 0 1 11010000
8.5" x 13" — 1 1 0 0 11000000
A4-SEF 8.5" x 13" 0 1 0 0 01000000
A4-LEF 11" x 8.5" 0 0 1 1 00110000
B5-LEF 8.5" x 11" 0 0 0 1 00010000
A5-LEF 8.5" x 5.5" 0 0 0 0 00000000
— 8.5" x 13" 0 1 0 1 01010000
0: High (no paper), 1: Low (paper present)
The above table shows the outputs of the sensors for each original size. This original size
detection method eliminates the necessity for a pre-scan and increases the machine's
productivity.
For other combinations, “Cannot Detect Original Size” will be indicated on the operation
panel display (if SP 4303 is kept at the default setting).
However, if the by-pass feeder is used, note that the machine assumes that the copy paper is
short-edge first. For example, if A4 paper is placed long-edge first on the by-pass tray, the
machine assumes it is A3 paper and scans the full A3 area for the first copy of each page of
the original, disregarding the original size sensors. However, for each page, the data signal to
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the laser diode is stopped to match the copy paper length detected by the registration sensor.
This means that copy time for the first page may be slower (because of the longer time
required for scanning), but it will be normal for the rest of the job.
Original size detection using the ADF is described in the manual for the ADF.
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Image Processing
Overview
The CCD generates an analog video signal. The SBU (Sensor Board Unit) converts the
analog signal to an 8-bit digital signal, then it sends the digital signal to the BICU board.
The BICU board can be divided into three image-processing blocks: the IPU (Image
Processing Unit), FCI (Fine Character Image), and VCU (Video Control Unit).
IPU: Auto shading, filtering, magnification, scanner gamma correction, ID gamma
correction
VCU: Printer gamma correction, LD print timing control and laser power PWM control
FCI (inside the VCU): Smoothing
The IPU and VCU are contained in the same IC called SCRATCH on the BICU.
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SBU (Sensor Board Unit)
The CCD converts the light reflected from the original into an analog signal. The CCD line
has 7,400 pixels and the resolution is 600 dpi (23.6 lines/mm).
The CCD has two output lines, for odd and even pixels, to the analog processing circuit. The
analog processing circuit performs the following operations on the signals from the CCD:
1. Z/C (Zero Clamp):
Adjusts the black level reference for even pixels to match the odd pixels.
2. Signal Amplification:
The analog signal is amplified by operational amplifiers.
After the above processing, the analog signals are converted to 8-bit signals by the A/D
converter. Each pixel will be assigned a value on a scale of 256 grades. Then, the digitized
image data goes to the BICU board.
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IPU (Image Processing Unit)
Overview
The image data from the SBU goes to the IPU (Image Processing Unit) on the BICU board,
which carries out the following processes on the image data:
1. Auto shading
2. White/black line correction
3. ADS
4. Scanner gamma correction
5. Magnification (main scan) 6. Filtering (MTF and smoothing) 7. ID gamma correction
8. Binary picture processing
9. Error diffusion
10. Dithering
11. Video path control 12. Test pattern generation
The image data then goes to the VCU (basic machine) or to the GDI controller (GDI
machine).
The IPU and VCU are contained in the same IC (called SCRATCH) on the BICU.
Image Processing Modes
The user can select Text, Photo and Special original types. However, each of these original
types has a range of different choices (such as “sharp”, “photographs”, etc), which are listed
in the table below.
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All modes can be customized with a range of SP modes that can be adjusted to meet
user requirements.
The user can select the mode that best suits their original with the following user tool:
Original Type: User Tools – Copier Features – Image Adjustment
Original Type Mode Targeted Original Type
Normal Normal text originals
Text Sharp
Newspapers, originals through which the rear side
is moderately visible as faint text.
Photo priority Text/photo images which contain mainly photo
areas
Text priority Text/photo images which contain mainly text areasPhoto
Photographs Actual photographs
Unneeded
background
Originals through which the rear side is extremely
visible (or have a colored background) with faint
text. Also for originals with very grainy backgrounds
(some newspapers) and faint text.
Colored text Originals with colored text and lines.
Normal Pixel Photo
Photo images created by dither patterns (dots
visible), such as newspaper photos – normal
resolution.
Coarse Pixel Photo
Photo images created by dither patterns (dots
visible), such as newspaper photos – coarse
resolution.
Special
Preserved
Background (Normal
Text)
Use instead of Normal Text if, e.g. an embedded
white area causes Auto Image Density to initially
remove the surrounding (darker) background but
leave the rest. Use if the customer wishes to keep
this background.
Image Processing Path
The following diagram shows the various stages of image processing and where they are
performed.
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Original Modes
The machine has 10 original modes. There are two text modes, three photo modes, and five
“special” modes.
The original mode key on the operation panel has two settings, text and photo. With the
default settings, the machine uses “Normal Text (Text 1)” when the Text indicator is lit, and
uses “Photo Priority (Photo 1)” when the Photo indicator is lit.
The customer can allocate different modes to the Text and Photo indicators with User Tools –
Copier Features – Image Adjustment. Note that the Text indicator does not have to be
allocated to a Text mode and the Photo key does not have to be allocated to a Photo mode.
For example, the Text indicator can be allocated to Photo 3, and the Photo indicator can be
allocated to Special 4.
If the user wishes to customize one of the original modes, the technician can change the
settings using SP 4922 to SP 4942. Refer to “SP Modes for Each Image Processing Step”.
However, only one of the original modes can be customized at any one time.
SP Modes for Each Image Processing Step
The table on the next page shows which SP modes are used for each step of image
processing.
4921: Selects which original mode the settings from SP 4922 to SP 4932 will be
applied to.
4922: Selects the scanner curve. You can select either a curve for text-based originals
(brings out text) or a curve for photo originals (better distinctions between shades of dark
colors).
4923: Selects the central notch position for the ID adjustment LEDs.
4926: Adjusts the texture removal level (used with error diffusion).
4927: Adjusts the line width.
4928: Selects the dot erase level.
4929: Converts white to black, and black to white
4930: Adjusts the clarity of line images and the edges of solid images.
4931: Adjusts the clarity of solid image areas.
4932: Adjusts the clarity of low ID lines.
4941: Selects the white line erase level.
4942: Selects the black line erase level.
If a fax and/or scanner/printer option is installed, you can make separate settings for copier,
fax, and scanner/printer mode with these SPs.
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Auto Shading
Overview
There are two auto shading methods: black level correction and white level correction. Auto
shading corrects errors in the signal level for each pixel.
Black and white level correction is always done.
Black Level Correction
The IPU detects the black dummy data from one end of the CCD signal (32 pixels at the end
are blacked off) and takes the average of the black dummy data. Then, the black level value
from each image pixel is detected.
White Level Correction
Previous machines used 8-bit data (256 gradations), but this machine uses 6-bit data (64
gradations). When white level correction is applied to 8-bit data, white lines are more easily
generated. This is because the normal variations in CCD pixel response (which are very
slight), when rounded off by white level correction, will show up much easier on the copy
when the data is divided into 256 gradations.
Before scanning the original, the machine reads a reference waveform from the white plate.
The average of the white video level for each pixel is stored as the white shading data in the
FIFO memory in the IPU (SCRATCH) chip.
The video signal information for each pixel obtained during image scanning is corrected by
the IPU (SCRATCH) chip. If the maximum value of the video level is 64 or less, SC101
(exposure lamp error) is generated.
Auto shading is done before scanning for the first original as well as after scanning each page
to prepare for the next page.
If the image density or the original mode is changed during a copy run, auto shading is done
before scanning the next original.
White Line Erase
The white line erase feature is validated (default) when you specify a value other than "0" in
SP 4941 1. This feature works as follows:
1. The copier scans the original.
2. The density level of each pixel is compared with its adjacent pixels.
3. If the density level of a pixel is extremely lower then adjacent pixels, the
level is corrected. The density levels of the adjacent pixels are considered.
When you validate the white line erase feature, the feature works for all originals. This feature
erases the white lines of 1- through 6-pixel width (approximately, up to 0.25 mm). The white
lines that exceed this width are not erased.
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When you specify "2," instead of "1," in SP 4941 1, the feature erases darker white lines
(namely, less whiter lines). Note that this SP does not affect the width of white lines to be
erased.
Black Line Erase
The black line erase feature is the function that erases black lines made by the dust or dirt on
the exposure glass. The feature is validated (default) when you specify a value other than "0"
in SP 4942 1.
When you specify a larger value in this SP, the feature erases weaker black lines (namely,
less blacker lines). This SP also affects the width of black lines to be erased. If you specify "1"
or "2," the feature erases the black lines of 1- through 4-pixel width (approximately, up to 0.17
mm); if you specify "3," the feature erases the black lines of 1- through 6-pixel width
(approximately, up to 0.25 mm). Note that some black lines on the original may be erased
when you specify a larger value in the SP.
Auto Image Density (ADS)
In the SBU
ADS prevents the background of an original from appearing on copies. As the scanner scans
down the page, the IPU on the BICU detects the peak white level for each scan line. The IPU
determines the reference value for the A/D conversion for a particular scan line using the
peak white level for that scan line. Then, the IPU sends the reference value data to the
reference controller on the SBU.
When an original with a gray background is scanned, the density of the gray area is the peak
white level density. Therefore, the original background will not appear on copies. Because
peak level data is taken for each scan line, ADS corrects for any changes in background
density down the page.
As with previous digital copiers, the user can select manual image density when selecting
ADS, and the machine will use both settings when processing the original.
By Original Type
ADS mode is only enabled when the user has selected:
Text mode 1 or 2 (Normal or Sharp), Photo mode 2 (Text/Priority), or Special mode 1 or 2
(Unneeded background or Colored Text).
This can be done using Adjust Original Mode (3) in User Tools (Copier Features).
Scanner Gamma Correction
The CCD output is not proportional to the quantity of light received. Scanner correction
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corrects the CCD output so that grayscale data is proportional to the quantity of light
received.
The machine has two possible scanner gamma curves: Text and Photo. When selecting Text,
the machine does not use scanner gamma correction. As a result, the output is darker than
the image density on the original. The advantage of this is that the machine can bring out
gradations in paler areas. The disadvantage is that the machine cannot bring out gradations
in darker areas, i.e. differences in shades of dark colors are hard to distinguish.
When selecting Photo, the machine uses scanner gamma correction. One advantage of this
is that the machine can bring out gradations in dark areas of photo image originals. The
disadvantage is that it in some cases images come out lighter than the customer desires.
Main Scan Magnification
Changing the scanner speed enables enlargement and reduction along the sub scan
direction. However, enlargement and reduction along the main scan direction is handled by
the IPU (SCRATCH) chip. The processing for main scan enlargement/reduction is the same
as in previous digital machines.
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Mirroring for ADF Mode
When making copies using the ADF, the magnification circuit creates a mirror image. This is
because the scanning start position along the main scan direction in ADF mode is at the
opposite corner of platen mode.
In platen mode, the original is placed face down on the exposure glass. The main scan start
position is at corner [A], and the scanner moves down the page. In ADF mode, the ADF feeds
the leading edge of the original to the DF exposure glass. Therefore as mentioned above, the
main scan start position will be at the opposite corner.
To create the mirror image, the IPU stores each line in LIFO (Last In First Out) memory.
Filtering
Overview
There are several software filtering processes for enhancing the desired image qualities of
the selected original mode. There are three MTF filters, a smoothing filter, independent dot
erase, and line width correction. Each can be used only when certain modes are selected
(details below) and are automatically applied.
The strength levels for the MTF are controlled by SP 4932. The levels for line width correction
and independent dot erase are controlled by SP 4927 and 4928, respectively.
The MTF filters bring out sharpness. The three MTF filters are Edge, Solid Image and Low ID
Line. Line width correction adjusts the line width. Independent dot erase removes unwanted
dots from the image.
MTF Filter Adjustment - Edge
In order to determine whether a given dot is part of an edge or not, the IPU checks all
surrounding dots (vertical, horizontal, and diagonal). If the IPU determines that the dot is part
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of an edge, the machine applies the MTF filter for edges, using the value set in SP 4930. The
higher the setting, the sharper the image. However, this is only used when the customer uses
Text 1, Text 2, Photo 1-3, Special 1, Special 2, or Special 5.
The default value is “0” for each mode. However the actual strength of “0” differs from mode
to mode.
MTF Filter Adjustment - Solid
If the IPU detects that the dot is not part of an edge, the machine applies the MTF filter for
solid areas using the value set in SP 4931. The higher the setting, the sharper the image.
However, this is only used when the customer uses Text 2.
The default value is “0” for each mode. However the actual strength of “0” differs from mode
to mode.
MTF Filter Adjustment - Low ID Line
The IPU also checks the image density of all dots. If a succession of low-density dots is
detected, the machine interprets this as a low ID line and applies the MTF filter for low ID
lines, using the value set in SP 4932. The higher the setting, the sharper the image. However,
this is only used when the customer uses Text 1, Text 2, Photo 2, Special 1, Special 2, or
Special 5.
The default value is “0” for each mode. However, the actual strength of “0” differs from mode
to mode.
Independent Dot Erase
When the user selects Text 1 and 2, Photo 2, and Special 1, 2, and 5 modes, independent
dots are detected using a matrix and erased from the image. The detection level can be
adjusted with SP 4928.
The higher setting, the greater number of dots the machine will erase. The machine erases
the dots regardless of their image density. However, note that dots in mesh-like images may
be mistakenly detected as independent dots.
Line Width Correction
When the user selects Text 1 and 2, Photo 2, Special 1, 2, and 5, the thickness of lines is
adjusted using the setting of SP4-927. Note that the default for all modes except Special 2 is
OFF.
Line width correction is done by the IPU (SCRATCH) chip.
ID Gamma Correction
The machine automatically selects the most appropriate ID gamma correction based on the
selected original type and the operation panel ID setting.
In all modes, ID gamma correction can be adjusted with SP 4923.
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Gradation Processing
Overview
There are three types of gradation processing (listed below). Refer to the “Default Image
Processing Mode for Each Original Type” section for more details on which processes are
used for each original mode.
Binary picture processing
Error diffusion
Dithering
Binary Picture Processing
The 8-bit image data is converted into 1-bit data (black and white image data). This is done
when the user selects Text 2 or Special 1. The threshold for deciding whether a pixel is black
or white cannot be adjusted.
Error Diffusion
Error diffusion reduces the difference in contrast between light and dark areas of a halftone
image. Each pixel is corrected using the difference between it and the surrounding pixels.
The corrected pixels are compared with an error diffusion matrix.
Error diffusion is applied when the user selects Text 1, Photo 1-3 and Special 2 and 5.
As the final step in error diffusion, a process called Texture Removal is applied to Text 1,
Photo 2, Special 2, and Special 5 by default, but can also be applied to Photo 1 and 3 by
changing the value of SP 4926.
Texture removal uses 256 threshold values in an 8 x 8 matrix. The value of SP 4926 controls
the application of Texture Removal for each of the 6 modes listed above. The settings are as
follows:
0: The default value for each mode is used. Text 1, Photo 2, Special 2, and Special 5 have a
default of 3 (see below) and Photo 1 and 3 have a default of 1.
1: No removal applied.
2 – 6: Removal applied at the level specified here. The higher the setting (level), the less
clear the image will become (more texture removal).
Dithering
Each pixel is compared with the threshold in a dither matrix. Several matrices are available to
bring out half-tone areas in images such as newspaper-type photographs. Dithering is only
used for Special 3 and Special 4.
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Video Control Unit (VCU)
Fine Character and Image (FCI)
The FCI performs image smoothing. This functions only affects binary picture processed
images for certain original modes.
Usually, binary picture processing generates jagged edges on characters, as shown in the
above illustration. These are reduced using edge smoothing. The FCI changes the laser
pulse duration and position for certain pixels.
Fig. A shows the four possible pulse durations, and Fig. B shows how the laser pulse can be
in one of three positions within the pixel. Fig. C shows an example of how edge smoothing is
used.
FCI smoothing is only effective when Text 2 or Special 1 is selected. There is no SP
adjustment for this.
Printer Gamma Correction
Printer correction corrects the data output from the IPU to the laser diode to account for the
characteristics of the engine components (e.g. drum, laser diode, lenses).
The machine chooses the most suitable gamma curve for the original type selected by the
user. There is no SP adjustment for this.
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Laser Exposure
Overview
1. LD unit
2. Synchronization detector lens
3. Double toroidal lens
4. Shield glass
5. OPC drum
6. 1st mirror
7. 2nd mirror
8. F-theta lens
9. Polygon mirror
10. Cylindrical lens
11. Synchronization detector mirror
The LD drive board controls both the laser output and laser synchronization mechanism.
The machine cuts off the power supply to the LD drive board if the front or right cover is
opened.
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Auto Power Control (APC)
The LD driver IC drives the laser diode. To prevent the intensity of the laser beam from
changing because of the temperature, the machine monitors the current passing through the
laser diode (LD). The machine adjusts the current to the laser diode by comparing it with the
reference level from the reference circuit.
This auto power control is done just after the machine is turned on and during printing.
The laser diode power is adjusted on the production line.
Do not touch the variable resistors on the LD unit in the field.
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LD Safety Switch
To ensure technician and user safety and to prevent the laser beam from inadvertently
switching on during servicing, there are safety switches at the front and right covers.
When the front cover or the right cover is opened, the power supply to the laser diode is
interrupted.
The switches are installed on the +24V line coming from the power supply unit, then the
+5VLD is generated from the +24V supply after it goes through the interlock switches.
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Photoconductor Unit (PCU)
Overview
The PCU consists of the components shown in the above illustration. An organic
photoconductor (OPC) drum (diameter: 30 mm) is used in this machine.
1. Cleaning Blade
2. Toner Collection Coil
3. Pick-off Pawl
4. OPC Drum
5. ID Sensor (see note)
6. Development Roller
7. Development Unit
8. Charge Roller
9. Charge Roller Cleaning Brush
10. Quenching Lamp (see note)
The ID sensor and quenching lamp are not included in the PCU.
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Drive
The main motor [A] drives the drum [B] through a series of gears and the drum drive shaft [C].
The main motor assembly includes a drive controller, which outputs a motor lock signal when
the rotation speed is out of the specified range.
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Drum Charge
Overview
This copier uses a drum charge roller to charge the drum. The drum charge roller [A] always
contacts the surface of the drum [B] to give it a negative charge of –950 V.
The high voltage supply board gives a negative charge of –1700 V to the drum charge roller
through the screw [C] and terminal plate [D]. This voltage can be changed using SP 2001 1.
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Charge Roller Voltage Correction
Correction for Environmental Conditions
With a drum charge roller system, the voltage transferred from roller to drum varies with the
temperature and humidity around the drum charge roller. The higher the temperature or
humidity is the higher the applied voltage required.
To compensate, the machine uses the ID sensor to measure the effects of current
environmental conditions. For this measurement, the process control parameters are
balanced so that any small change in drum potential caused by environmental effects is
reflected in a change in the amount of toner transferred to the drum.
This measurement is made immediately after the ID sensor pattern for toner density control.
Immediately after making ID sensor pattern [A], the charge roller voltage stays the same, but
the development bias goes up to –600 V; as a result the drum potential is reduced to –650 V.
The laser diode is not switched on, and the drum potential is now slightly higher than the
development bias, so a very small amount of toner transfers to the drum. The ID sensor
measures the density of this pattern [B], and the output voltage is known as Vsdp. This
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voltage is compared with Vsg (read from the bare drum at the same time).
If the humidity drops, the drum potential goes up (to a higher negative voltage) even if the
charge roller voltage supply stays the same (efficiency of voltage transfer is higher with lower
humidity). As a result, less toner is transferred to ID sensor pattern [B]. If the sensor output
reaches a certain point, the drum charge voltage will be reduced.
To determine whether to change the drum charge roller voltage, the machine compares Vsdp
with Vsg.
Vsdp/Vsg > 0.95 = Make the drum charge voltage less negative (smaller) by 50 V
Vsdp/Vsg < 0.90 = Make the drum charge voltage more negative (larger) by 50 V
ID Sensor Pattern Production Timing
The ID sensor pattern is made at the following times. (Not made every page or every job.)
During warm-up at power on
When the machine starts warming up from energy saver mode and the temperature is
less than the target temperature as set with SP Mode.
When the machine starts warming up from energy saver mode and the machine prints
more than 100 prints after generating the p-pattern.
Drum Charge Roller Cleaning
Because the drum charge roller [A] always contacts the drum, it gets dirty easily. So, the
cleaning brush [B] also contacts the drum charge roller all the time to clean the surface of the
drum charge roller.
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Development
Overview
The development unit consists of the following parts.
1. Development roller
2. Mixing auger 2
3. TD sensor
4. Mixing auger 1
5. Doctor blade
This machine uses a single-roller development system. Two mixing augers mix the developer.
The toner density (TD) sensor and image density (ID) sensor (see the illustration in the PCU
section) are used to control the image density on the copy.
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Drive
The main motor [A] drives the development roller [B] and mixing augers [C] through a train of
gears and the development drive shaft [D]. When the PCU is pushed in, the development
drive shaft engages the development roller gear.
The development drive gears (except for the gears in the development unit) are helical gears.
These gears are quieter than normal gears.
Developer Mixing
The two mixing augers, [A, B] keep the developer evenly mixed. Mixing auger 2 [A] transports
excess developer, scraped off the development roller [C] by the doctor blade [D], towards the
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front of the machine. Mixing auger 1 [B] returns the excess developer, along with new toner,
to the rear of the mixing assembly. Here the developer is reapplied to the development roller.
Development Bias
This machine uses a negative-positive development system, in which black areas of the
latent image are at a low negative charge (about –154 50 V) and white areas are at a high
negative charge (about –950 V).
To attract negatively charged toner to the black areas of the latent image on the drum, the
high voltage supply board applies a bias of –650 volts to the development rollers throughout
the image development process. The bias is applied to the development roller shaft [A]
through the drive shaft [B].
The development bias voltage (–650 V) can be adjusted with SP 2201 1.
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Toner Supply
Toner Bottle Replenishment Mechanism
When a toner bottle is placed in the bottle holder unit [A] and the unit is pushed in completely,
toner shutter [B] moves against the side [C] of the PCU. When the toner bottle holder lever
[D] is put back in the original position, the cap [E] on the toner bottle is pulled away and kept
in place by the chuck [F].
The toner supply mechanism transports toner from the bottle to the development unit. The
toner bottle has a spiral groove [G] that helps move toner to the development unit.
To add a new toner bottle, first lift the toner bottle holder. When this is done, the chuck
releases the toner bottle cap into its proper position to prevent toner from scattering.
Then, when the bottle holder unit is pulled out to add a new toner bottle, the toner shutter
shuts to block the opening as a result of pressure from a spring.
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Toner Supply Mechanism
The toner supply motor [A] drives the toner bottle [B] and the mylar blades [C]. First, the toner
falls down into the toner bottle holder. The toner supply mylar blades transfer the toner to the
slit [D]. When the PCU is installed in the machine, the shutter [E] above the PCU is opened by
the toner bottle holder. Then the toner falls down into the development unit through the slit
and the shutter.
Toner Density Control
Overview
There are four modes for controlling toner supply as shown in the following tables, which can
be changed with by SP 2921. The factory setting is sensor control 1 mode.
Basically, the toner concentration in the developer is controlled using the standard TD sensor
voltage (Vts), toner supply reference voltage (Vref), actual TD sensor output voltage (Vt), and
ID sensor output data (Vsp/Vsg).
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The four-toner density control modes are as follows.
Sensor control 1
Mode Sensor control 1 (SP 2921, “0”): Normally use this setting only
Toner supply decision Compare Vt with a reference voltage (Vts or Vref)
Toner control process
Toner is supplied to the development unit when Vt is higher than the
reference voltage (Vts or Vref). This mode keeps the Vref value for
use with the next toner density control.
Vts is used for the first toner density control after a new PCU has
been installed, until it has been corrected with the ID sensor output.
Vref is used after Vts has been corrected with the ID sensor output
voltage (corrected during the first toner density control for a new
PCU).
Toner supply amount Varies
Toner end detection Performed
Sensor control 2
Mode Sensor control 2 (SP 2921, “1”): For designer’s use only; do not use
in the field
Toner supply decision Compare Vt with a reference voltage (Vts)
Toner control process This toner control process is the same as sensor control 1 mode.
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However, the reference voltage used is always Vts.
Toner supply amount Varies
Toner end detection Performed
Fixed control 1
Mode Fixed control 1 (SP 2921, “2”): For designer’s use only; do not use in
the field
Toner supply decision Compare Vt with a reference voltage (Vts or Vref)
Toner control process This toner control process is the same as sensor control 1 mode.
Toner supply amount Fixed (SP 2925)
Toner end detection Performed
Fixed control 2
Mode Fixed control 2 (SP 2921, “3”): Use temporarily if the TD sensor
needs to be replaced
Toner supply decision None
Toner control process Toner is supplied every printed page regardless of Vt.
Toner supply amount Fixed (SP 2925)
Toner end detection Not performed
Toner Density Sensor Initial Setting
The TD sensor initial setting (SP 2214: Developer Initialize) procedure must be done after
replacing the developer. During TD sensor initial setting, the TD sensor is set so that the TD
sensor output is the value of SP 2926 (default: 2.4 V). This value will be used as the standard
reference voltage (Vts) of the TD sensor.
Toner Concentration Measurement
The toner concentration in the developer is detected once every copy cycle. The sensor
output voltage (Vt) during the detection cycle is compared with the standard reference
voltage (Vts) or the toner supply reference voltage (Vref).
Vsp/Vsg Detection
The ID sensor detects the following voltages.
Vsg: The ID sensor output when checking the drum surface
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Vsp: The ID sensor output when checking the ID sensor pattern
In this way, the reflectivity of both the drum surface and the pattern on the drum are checked,
compensating for any variations in the reflectivity of the pattern on the drum or the reflectivity
of the drum surface.
The ID sensor pattern is made on the drum by the charge roller and laser diode.
Vsp/Vsg is not detected every page or job; it is detected at the following times to decide Vref.
During warm-up at power on
If the machine starts warming up when the fusing temperature is 30C or less (default) after
entering night mode or low power mode (SP 2994 specifies the temperature setting).
Toner Supply Reference Voltage (Vref) Determination
The toner supply reference voltage (Vref) is used for toner supply determination (see below).
Vref is determined using the following data:
ID sensor output (Vsp/Vsg)
(Vts or the current Vref) - Vt
Toner Supply Determination
The reference voltage (Vts or Vref) is the threshold voltage for determining whether or not to
supply toner. If Vt becomes greater than the reference voltage, the machine supplies
additional toner.
This can be checked using SP 2220.
Toner Supply Motor On Time Determinations
For fixed control mode, the toner supply motor on time is specified by the setting of SP 2925,
and does not vary. The default setting is 200 ms for each copy. The toner supply motor on
time for each value of SP 2925 is as follows.
Value of SP2-925 Motor On Time (t = 200 ms)
0 T
1 2t
2 4t
3 8t
4 12t
5 16t
6 Continuously
7 Not supplied
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For sensor control modes 1 and 2, the toner supply motor on time is decided by the following
factors.
Vt
Vref or Vts
TD sensor sensitivity (coefficient: S, value is 0.4)
There are seven levels for toner supply motor on time as shown below.
Level Decision Motor On Time (seconds)
1 (Vts or Vref) < Vt (Vts or Vref) + S/16 t (0.4)
2 (Vts or Vref) < Vt (Vts or Vref) + S/8 t x 2 (0.8)
3 (Vts or Vref) < Vt (Vts or Vref) + S/4 t x 4 (1.6)
4 (Vts or Vref) < Vt (Vts or Vref) + S/2 t x 8 (3.2)
5 (Vts or Vref) < Vt (Vts or Vref) + 4S/5 t x 16 (6.4)
6 Vt (Vts or Vref) + 4S/16 (near-end) T (30); see note 3
7 Vt (Vts or Vref) + S (toner end) T (30); see note 3
The value of “t” can be changed using SP 2922 (default: 0.4 second)
The value of “T” can be changed using SP 2923 (default: 30 seconds)
T (30) means that toner is supplied intermittently in a 1/3 duty cycle (1 s on, 2 s off)
for 30 seconds
Toner Supply in Abnormal Sensor Conditions
ID Sensor
Readings are abnormal if any of the following conditions occur:
Vsg 2.5V
Vsg < 3.5V when maximum power (979) is applied
Vsp 2.5V
(Vsg – Vsp) < 1.0V
Vt 4.5V or Vt 0.2V
The above ID sensor values can be checked using SP 2221.
When this is detected, the machine changes the value of Vref to 2.5 V then does the toner
density control process (in a similar way to sensor control mode 2).
No SC code is generated if the ID sensor is defective.
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TD Sensor
The TD sensor output is checked every copy. If the readings from the TD sensor become
abnormal, the machine changes the toner density control mode to fixed supply mode 2, and
the toner supply amount per page is always 200 ms, regardless of the value of SP 2925. If the
machine detects the TD sensor error condition 10 times consecutively, an SC code is
generated (SC390) and the machine must be repaired.
Toner Near End/End Detection and Recovery
The toner near end and end conditions are detected using the Vt and Vref values, in a similar
way to toner density control.
This is done in all toner supply modes except for fixed mode 2, when toner end is not
detected.
Toner Near End Detection
If Vt is at level 6 (see the table on the previous page) five times consecutively, the machine
enters the toner near end condition and the toner end indicator starts blinking. Then the
machine supplies toner for a certain time, which depends on the setting of SP 2923 (see the
previous page).
Toner Near End Recovery
If the machine detects “Vt < (Vref or Vts) + 4S/5” twice consecutively in any of the following
situations, the machine clears the toner near end condition.
While in the toner recovery cycle (supplying toner on and off for 30 seconds) after the
machine has detected a toner near end condition.
During copying in the toner near end condition.
If the front cover is opened and closed for more than 10 seconds while a toner near end
condition exists.
Toner End Detection
There are two situations for entering the toner end condition.
When Vt is level 7 three times consecutively, the machine enters the toner end condition.
When 50 copies have been made since entering the toner near end condition. The
number of copies between toner near-end and toner end can be changed using SP
2213.
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Toner End Recovery
While turning on the main switch, if the front cover is opened for 10 seconds or more and then
closed while a Toner End condition exists (following toner bottle replacement), the machine
clears the Toner End condition. The recovery procedure is the same as for toner near end. It
takes about two minutes.
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Drum Cleaning and Toner Recycling
Drum Cleaning
The cleaning blade [A] removes any toner remaining on the drum after the image is
transferred to the paper. This model uses a counter blade system.
The cleaning blade scrapes off toner remaining on the drum. When toner builds up in the
cleaning unit, toner at the top of the pile is removed by the toner collection coil [B].
To remove the toner and other particles that are accumulated at the edge of the cleaning
blade, the drum turns in reverse for about 5 mm at the end of every copy job.
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Toner Recycling
Toner picked up by the toner collection coil [A], is transported to the opening [B] in the side of
the PCU. Then, this toner falls into the development unit with new toner coming from the
toner bottle and it is all mixed together by mixing auger 1 [C] and used again.
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Paper Feed
Overview
There are one or two paper trays, each of which can hold 250 sheets.
The paper tray feed stations use a friction pad system. To prevent paper from getting caught
inside the machine when the tray is pulled out, the paper feed roller and shaft do not separate
from the tray when the tray is pulled out.
The two relay sensors are used for paper jam detection. The lower one detects jams when
paper is fed up from the optional paper feed unit.
The components of the paper feed station are as follows.
1. Paper End Sensor
2. Paper Feed Roller
3. Registration Roller
4. Paper Size Switch
5. Upper Relay Roller
6. Upper Relay Sensor
7. Lower Relay Sensor
8. Friction Pad
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Paper Feed Drive Mechanism
The main motor [A] drives the pick-up and feed mechanism of both the first and second paper
trays. The paper feed clutches [B] transfer drive from this motor to the paper feed rollers [C].
When the paper feed clutch turns on, the feed roller starts to feed the paper. The paper feed
clutch stays on until shortly after the registration sensor has been activated.
Paper Feed and Separation Mechanism
The paper feed roller [A] drives the top sheet of paper from the paper tray to the copier. The
friction pad [B] allows only one sheet to feed at a time. The friction pad applies pressure to the
feed roller with a spring [C].
The friction pad pressure cannot be adjusted.
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Paper Lift Mechanism
When the paper tray [A] is closed, projection [B] on the copier frame pushes slider [C] (on the
bottom part of the paper tray) off the bottom plate hook [D]. After the release slide comes off,
compressed springs lift the bottom plate.
Paper End Detection
If there is any paper in the paper tray, the paper stack lifts the feeler, the paper end sensor [A]
is deactivated.
When the paper tray runs out of paper, the paper end feeler drops into the cutout [B] in the
tray bottom plate and the paper end sensor is activated.
When the paper tray is drawn out with no paper in the tray, the shape of the paper end feeler
causes it to lift up.
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Paper Size Detection
Paper Tray
SW
Size 1 2 3
A3, 11" x 17" Off Off Off
A4 LEF On On Off
A4 SEF, 81/2" x 11" On Off Off
A5 LEF, 81/2" x 14" Off On On
81/2" x 13" On Off On
11" x 81/2" Off On Off
* (Asterisk) Off Off On
ON=Not pushed, OFF=Pushed
There are three paper size micro-switches [A] on the front right plate of the paper tray unit.
The switches are actuated by a paper size actuator [B] behind the paper size indicator plate,
which is on the front right of the tray.
Each paper size has its own actuator, with a unique combination of notches. To determine
which size has been installed, the CPU reads which micro-switches the actuator has
switched off.
The CPU disables paper feed from a tray if the paper size cannot be detected. If the paper
size actuator is broken, or if there is no tray installed, the Add Paper indicator will light.
When the paper size actuator is at the “*” mark, the paper tray can be set up to accommodate
one of a wider range of paper sizes by using User Tools. If the paper size for this position is
changed without changing the User Tool setting, a paper jam will result.
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By-pass Tray
The by-pass feed paper size switch [A] monitors the paper width. The side fence is connected
to the terminal plate gear. When the side fences move to match the paper width, the circular
terminal plate rotates over the wiring patterns on the rectangular part of the paper size switch.
The patterns for each paper width in the paper size switch are unique.
North America
CN No. (BICU) 11" x 17" 81/2" x 14" 51/2" x 81/2"
CN136-1 ON/OFF OFF OFF OFF OFF
CN136-2 OFF OFF OFF ON OFF
CN136-3 (GND) OFF OFF OFF OFF OFF
CN136-4 OFF ON OFF OFF ON
CN136-5 ON ON OFF OFF OFF
Europe/Asia
CN No. (BICU) A3 A4 SEF 8" x 13" A5 SEF
CN136-1 ON/OFF OFF OFF OFF
CN136-2 OFF OFF OFF ON/OFF
CN136-3 (GND) OFF OFF OFF OFF
CN136-4 OFF ON ON OFF
CN136-5 ON ON OFF OFF
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Side Fences
If the tray is full of paper and it is pushed in strongly, the fences may deform or bend. This
may cause the paper to skew or the side-to-side registration to be incorrect. To correct this,
each side fence has a stopper [A] attached to it. Each side fence can be secured with a screw,
for customers who do not want to change the paper size.
Paper Registration
The drive from the main motor [A] is transmitted to the registration roller through the
registration clutch gear [B].
The registration sensor [C] is used for correcting paper skew and for detecting paper
misfeeds.
The cleaning mylar [D] contacts the registration roller. It removes paper dust from the
registration roller so that this dust will not transfer into the development unit through the
drum-cleaning unit.
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The amount of paper buckle at the registration roller to correct skew can be adjusted with SP
1003.
If jams frequently occur after registration, SP 1903 can be used to activate the relay clutch so
that the relay roller assists the registration roller in feeding the paper along. When feeding
from the by-pass tray, the by-pass feed clutch is activated, turning the by-pass feed roller.
This feature may be needed when feeding thick paper, and cannot be used for the first paper
feed tray.
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Image Transfer and Paper Separation
Overview
The transfer roller [A] touches the surface of the drum [B]. The high voltage supply board
supplies a positive current to the transfer roller, which attracts the toner from the drum onto
the paper. The current depends on the paper width, paper type, and paper feed tray.
The curvature of the drum and the discharge plate [C] help the paper to separate from the
drum. The discharge plate is grounded.
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Drive from the drum through a gear [D] turns the transfer roller.
Image Transfer Current Timing
There are two transfer current levels: low and high. The image transfer procedure is as
follows:
1. When the CPU receives the image writing start signal, the CPU instructs the
high voltage supply board to supply +10 microamperes (low transfer current
level) to the roller. This prevents any positively charged toner on the drum
surface from transferring to the transfer roller.
2. At a certain time after the low transfer current has been supplied to the roller,
high transfer current is applied to the roller to transfer the toner to the paper
(see the table below).
3. After the trailing edge of the paper has passed through the roller, transfer
current turns off. In multiple copy mode, the transfer current shifts again to
the low transfer current.
The high transfer current levels (default) are as shown in the following table. With SP 2301,
the high transfer current level used for the paper feed trays, duplex tray, by-pass tray, and
cleaning an be adjusted.
By-pass Tray
(Thick/OHP)
Paper Tray/
By-pass Tray
(Normal)
By-pass Tray
(Special/
Envelope)
Duplex
(2nd Side)
Duplex
(2nd Side)
A3/A4 LEF 11 A 12 A 13 A 12 A 17 A
DLT 12 A 18 A 15 A 18 A 17 A
B4 SEF 12 A 12 A 15 A 12 A 18 A
LT SEF 17 A 17 A 15 A 17 A 24 A
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By-pass Tray
(Thick/OHP)
Paper Tray/
By-pass Tray
(Normal)
By-pass Tray
(Special/
Envelope)
Duplex
(2nd Side)
Duplex
(2nd Side)
A4 SEF 21 A 15 A 28 A 15 A 24 A
B5 SEF 22 A 19 A 28 A 19 A 22 A
A5 SEF 22 A 19 A 28 A 19 A 28 A
HLT SEF 22 A 19 A 28 A — —
B6 SEF 22 A 19 A 28 A — —
A6 SEF 22 A 19 A 34 A — —
Post card/
Envelope 22 A 19 A 34 A — —
Be careful when increasing the transfer current. This may cause a ghosting effect, in which
part of the image at the top of the page is repeated lower down the page at a lower density. In
the worst case, it may also damage the OPC drum.
Transfer Roller Cleaning
If the paper size is smaller than the image, or if a paper jam occurs during printing, toner may
be transferred to the roller surface. To prevent the toner from transferring to the back side of
the printouts, the transfer roller requires cleaning before the next printing run.
During transfer roller cleaning, the high voltage supply unit supplies a negative cleaning
voltage (about –1 kV) to the transfer roller. Any negatively charged toner on the transfer roller
is then transferred back to the drum. Then a positive cleaning current (+10 microamperes) is
applied to the transfer roller to push back to the drum any positively charged toner on the
transfer roller.
The machine goes through the cleaning mode in the following conditions:
Before starting the printing job (only if enabled with SP 2996; note that the default setting
is off).
Just after the power is switched on.
After a copy jam has been cleared.
After 10 or more sheets of paper have been copied and the copy job has finished.
Also, the transfer roller cleaning current can be adjusted using SP 2301 4.
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Paper Separation Mechanism
The discharge plate [A] and the drum curvature of the drum help the paper to separate away
from the drum. The discharge plate is grounded.
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Image Fusing and Paper Exit
Overview
1. Paper exit roller
2. Exit sensor
3. Hot roller strippers
4. Pressure roller
5. Cleaning roller
6. Pressure spring
7. Fusing lamps
8. Thermistor
9. Thermostat
10. Hot roller
11. Thermostat
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Fusing Unit Drive and Release Mechanism
Fusing Unit Drive
The main motor [C] drives the fusing unit through a gear train, and drives the paper exit
rollers [A] through the timing belt [B].
Drive Release Mechanism
When the right door [I] is open, the spring [G] pushes the top end of the gear holder [F] to the
right. The drive gear is released from the fusing-unit drive gear [J]. When you close the right
door, the mechanical link [H] pushes the spring [G]. The gear holder turns counterclockwise
by the force of another spring [D], and engages with the fusing-unit drive gear.
Contact/Release Control
The drive power is not transmitted to the fusing unit during warming up when the fusing
temperature (at the start) is 18°C or higher. The drive power is transmitted when the fusing
temperature is less than 18°C. This contact/release control is based on the following
conditions.
Fusing Temp. Contact/Release
18C or higher Release
Less than 18C Contact
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The hot roller [L] takes a shorter time to become hot enough if it is not turning during warming
up. When, however, the fusing temperature (at the start) is low, the temperature of the
hot-roller surface may become uneven.
You can disable this control ( p.142).
Drive Release Solenoid
Solenoid Drive gear
Off Engaged
On Released
The fusing drive release solenoid [E] is on the rear end of the gear holder. When the solenoid
is off, the spring [D] pulls the gear holder, and the drive gear engages with the fusing unit
drive gear. When the solenoid is on, it pulls the top end of the gear holder to the right, and the
gear holder turns clockwise. As a result, the drive gear is released from the fusing unit drive
gear.
The release solenoid comes on when you turn on the main switch if the fusing temperature is
18C or higher. The solenoid releases the drive gear from the fusing unit drive gear. The fusing
lamps heat the hot roller [L] more effectively since the heat is not conducted to the pressure
roller [K]. When the hot roller becomes hot enough, the release solenoid turns off, letting the
drive gear engage with the fusing unit drive gear.
Fusing Entrance Guide Shift
The entrance guide [A] is adjustable for paper thickness to prevent creasing. The outer screw
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holes [B] on each side are used as the default setting.
If creasing occurs frequently in the fusing unit, adjust the entrance guide to the right, by
securing it with the inner holes [C]. This allows more direct access to the gap between the hot
roller and the pressure roller.
Pressure Roller
The pressure springs [A] constantly apply pressure between the hot roller [B] and the
pressure roller [C]. Applied pressure can be changed by adjusting the position of the
pressure springs. The spring is positioned at the end [D] as the default setting.
Fusing Temperature Control
Overview
There are two fusing lamps (not identical), two thermistors, and four thermostats.
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The fusing temperature is controlled using the thermistors [A].
The CPU checks the output from the fusing thermistor once every 1.5 seconds. The CPU
decides how long the lamps must be switched on during the next 1.5 seconds by comparing
the following temperatures:
The center thermistor temperature and the target center temperature
The end thermistor temperature and the target end temperature
The fusing lamp works to maintain a target fusing temperature of 160C during copying.
Temperature Control
According to the operation mode, the fusing temperature is controlled. The diagram
illustrates the transition of fusing temperature. After you turn the main switch on, the fusing
temperature rises from the room temperature (t0) to one of the specified temperatures. You
can adjust some of the temperatures.
A1: Regular Start Mode/A2: Cold Start Mode (SP 1107 1-2) Turning the fusing lamp on and off may affect the voltage of the power source in the room,
causing the fluorescent lights in the room to flicker. To lighten this problem, you can reduce
the checking repetition to 20 times.
When machine initialization ends, the fusing temperature is set to one of the following
temperatures:
The Standby Temperature (T2: SP 1105 3-4) when there is no print job.
The First Print Temperature when the copier has received a print request during machine
initialization.
You cannot directly adjust the First Print Temperature. This temperature is 10C higher (up to
185C) than the Copying Temperature ( p.111).
C: Copying Mode
When the copier is making copies, the fusing temperature is set to one of the following
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temperatures:
The Warm Up Temperature (SP 1105 1-2) to output the first print after the Low Power
Mode ( p.111)
The Copying Temperature (T4: SP 1105 5-6) to output the second print (and after the
second)
You can raise the Warm Up Temperature to make better the fusing quality of the first print.
While the copier is adjusting the fusing temperature to the Warm Up Temperature, the
message "Copy starts after warm up" is displayed.
c : Thick Paper Mode
When the machine is making copies on thick paper, the fusing temperature is set to the Thick
Paper Temperature (SP 1105 9-10). When thick paper reaches the registration sensor, the
copier checks the fusing temperature, and executes one of the following processing:
Stops feeding the thick paper (and keeps it at the registration sensor) and waits for the
fusing temperature to reach the predefined temperature–the temperature 5C lower than
the Thick Paper Temperature. (The fusing temperature keeps rising until it reaches the
Thick Paper Temperature while the thick paper travels from the registration sensor to the
fusing unit.)
Continues feeding paper and executes the print job if the fusing temperature is high
enough.
b1/b2: Standby Mode
When the copier is not making copies, the fusing temperature is set to the Standby
Temperature (T2: SP 1105 3-4). You can adjust this temperature. However, if you have raised
this temperature, the BICU may be unable to generate a SC code in the event of fusing lamp
error.
While in the Standby Mode, the copier checks the fusing temperature every 1.5 seconds (G:
SP 1108 1). Turning on and off the fusing lamp may affect the voltage of the power source (in
the room), causing the fluorescent lights (in the room) to flicker. To lighten such trouble, you
can adjust the control period. However, if you elongate this period (to two seconds or longer),
the BICU may be unable to generate a SC code in the event of a fusing lamp error.
e: Low Power Mode
When the Energy Saver Timer ( > System Settings > Timer Settings > Energy Saver
Timer) expires, the fusing temperature is set to the Low Power Temperature (T1: SP 1105
7-8).
Overheat Protection
This machine protects its hardware from overheat by three features. Normally, the first
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feature can fully protect the hardware. The second feature works as the fail-safe feature for
the first one. The third feature works as the fail-safe feature for the second one.
First Feature:
If the fusing temperature reaches 230C (or higher) and stays so for one second, the controller
turns the fusing lamp off. In a case like this, SC543 or SC553 shows.
Second Feature:
If the fusing feature reaches 250C, the controller cuts off the 24V line. (The fusing lamps are
on the 24V line.)
Third Feature:
Two thermostats are attached on each line of the two fusing lamps. (four thermostats in total).
One of the two thermostats cuts the power supply to the fusing lamp at 179C, and the other
cuts the power supply at 180C. (Note that the thermostat temperature is somewhat lower
than the fusing temperature.)
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Duplex Unit
Overall
The printed page from the fusing unit goes straight through to the exit tray, or upward to the
inverter section, depending on the position of the junction gate.
If the user selects duplex mode, the page is directed to the inverter tray, then reversed
through the duplex unit, and back into the machine for printing the second side.
1. Duplex Inverter Roller
2. Duplex Entrance Sensor
3. Upper Transport Roller
4. Middle Transport Roller
5. Duplex Exit Sensor
6. Lower Transport Roller
7. Junction Gate
8. Duplex Inverter Sensor
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Drive Mechanism
1. Duplex Inverter Roller
2. Duplex Inverter Motor
3. Upper Transport Roller
4. Duplex Transport Motor
5. Lower Transport Roller
6. Middle Transport Roller
Basic operation
To increase the productivity of the duplex unit, copies are printed as follows.
- Larger than A4 Short-edge/LT Short-edge - The paper feed path can hold only one sheet of copy paper at a time.
Example: 8 pages. The number [A] in the illustration shows the order of pages. The number
[B] in the illustration shows the order of sheets of copy paper (if black, this indicates the
second side).
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- Up to A4 Short-edge/LT Short-edge - The paper feed path can hold two sheets of copy paper.
Example: 8 pages. The number [A] in the illustration shows the order of pages. The number
[B] in the illustration shows the order of sheets of copy paper (if black, this indicates the
second side).
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Feed In and Exit Mechanism
During duplex copying, the inverter gate solenoid [A] switches on and the junction gate [B]
switches over to direct the paper to the inverter. When the paper trailing edge reaches the
duplex inverter sensor [C], the inverter roller [D] reverses its rotation direction and the paper
goes to the duplex unit. The paper is then sent to the mainframe registration rollers to print
the reverse side.
If there are two or more copies being made with A4/81/2" x 11" SEF (or smaller), the next
sheet waits at the registration sensor for the current sheet to exit the inverter.
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Energy Saver Modes of Basic Machines This section illustrates the energy saver modes of the basic machine (the machine without
the optional controller). For the energy saver modes of the GDI machine (the machine with
the optional controller), see the section of "Energy Saver Modes of GDI Machines".
Overview
The machine has two energy-saver modes: the Low Power Mode and the Night/Off Mode.
The table lists the status of several components. For the fusing temperature, see the section
of "Fusing Temperature Control".
Operation panel Engine Exhaust fan
Operating Mode* On On On
Low Power Mode Off On Off
Night/Off Mode Off Off** Off * The "Operating Mode" here refers to all the modes (and status) other than the Low Power
Mode and Night/Off Mode. Actual power consumption (during the Operating Mode) depends
on job status and environmental conditions. ** The SRAM is alive and backs up the engine controller.
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AOF
When AOF is off, the engine controller is unable to start the Night/Off Mode. The user should
keep AOF on ( > System Settings > Key Operator Tools > AOF).
Timers
The engine controller references the Energy Saver Timer to start the Low Power Mode, and
references the Auto Off Timer to start the Night/Off Mode. The user can set these timers (
> System Settings > Timer Settings).
The Energy Saver Timer and the Auto Off Timer start at the same time (t0) when the machine
ends all jobs or when the user ends all manual operations. Note that the Auto Off Timer does
not wait for the Energy Saver Timer. Therefore, if the user specifies a smaller value in the
Energy Saver Timer, the Auto Off Timer expires earlier than the Energy Saver Timer. In a
case like this, the Low Power Mode is not activated. Instead, the engine controller starts the
Night/Off Mode when the Auto Off Timer expires.
Specified value Low Power Mode Night/Off Mode
Energy Saver Timer > Auto Off Timer Can start Can start
Energy Saver Timer = Auto Off Timer Cannot start Can start
Energy Saver Timer < Auto Off Timer Cannot start Can start
Recovery
Any of the following operations brings the machine back to the Operating Mode:
The power switch is pressed.
Originals are set on the document feeder.
The platen cover (or document feeder) is opened.
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Energy Saver Modes of GDI Machines This section illustrates the energy saver modes of the GDI machine (the machine with the
optional controller). For the energy saver modes of the basic machine (the machine without
the optional controller), see the section of "Energy Saver Modes of Basic Machines".
Overview
The machine has three energy-saver modes: the Low Power Mode, the Transit Mode, and
the Night/Off Mode. The Transit Mode continues for about two seconds (probably, the user
does not recognize this mode when it occurs). The table lists the status of several
components. For the fusing temperature, see the section of "Fusing Temperature Control".
Operation panel Engine Exhaust fan
Operating Mode* On On On
Low Power Mode Off On Off
Transit Mode Off On Off
Night/Off Mode Off Off** Off * The "Operating Mode" here refers to all the modes (or status) other than the Low Power
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Mode and Night/Off Mode. Actual power consumption (during the Operating Mode) depends
on job status and environmental conditions. ** The SRAM is alive and backs up the engine controller.
AOF
See "" in the section of "Energy Saver Modes of Basic Machines".
Timers
The Energy Saver Timer and Auto Off Timer start at the same time (t0) when the machine
ends all jobs, when the user ends all manual operations, or when the controller starts the
default application program (the program specified by the user [ > System Settings >
General Features > Function Priority]). The default application program starts when the
System Auto Reset Timer expires ( > System Settings > Timer Settings > System Auto
Reset Timer).
For more information, see "s" in the section of "Energy Saver Modes of Basic Machines".
Recovery
Any of the following operations brings the machine back to the Operating Mode:
The power switch is pressed.
Originals are set on the document feeder.
The platen cover (or document feeder) is opened.
The controller receives a job over the network or the telephone line.
An SC code is generated.
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Specifications
General Specifications
Configuration: Desktop
Copy Process: Dry electrostatic transfer system
Originals: Sheet/Book/Object
Original Size: Maximum A3/11" x 17"
Maximum: A3/11" x 17"
Minimum: A5 LEF/81/2" x 51/2" (Paper tray),
A6 SEF/51/2" x 81/2" (Bypass)
Custom sizes in
the bypass tray:
Width: 90 – 297 mm (3.55" – 11.69"),
Length: 148 – 600 mm (5.83" – 23.62") Copy Paper Size:
NOTE: Physically, the by-pass tray can handle the following
size (but this size is not recognized by the application software):
Width: 305 mm
Length: 1,260 mm
Copy Paper Weight: Paper Tray: 60 – 90 g/m2, 16 – 24 lb.
Bypass: 52 – 162 g/m2, 14 – 43 lb.
Reproduction Ratios: 3 enlargement and 4 reduction
A4/A3 Version LT/DLT Version
Enlargement
200%
141%
122%
155%
129%
121%
Full Size 100% 100%
Reduction
93%
82%
71%
50%
93%
78%
65%
50%
Zoom: 50% to 200%, in 1% steps
Taiwan: 110 V, 60 Hz, 12 A
Korea: 220 V, 60 Hz, 7 A
Power Source:
North and South America: 120 V, 60 Hz, 12 A
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Europe, Asia: 220 – 240 V, 50/60 Hz, 7 A
Full System: Not above 1.28 kW
Off Mode (GDI): Not above 10 W
Off Mode (Basic): Not above 1 W
Power Consumption: Full system - Maximum possible power consumption
(any combination of mainframe and options), excluding
optional heaters, key counter, fax unit, and printer
controller.
Standby (Mainframe/Full system): Not above 40 dB(A)
Operating (Mainframe only): Not above 62 dB(A)
Operating (Full System): Not above 66 dB(A) Noise Emission:
The above measurements were made in accordance
with ISO 7779. Measurements were taken from the
normal position of the operator.
Dimensions (W x D x H):
B245/B276/B268: 550 x 568 x 420 mm (21.7" x 22.4" x 16.5")
B269/B277: 587 x 568 x 558 mm (23.1" x 22.4" x 23.0")
Measurement Conditions
1. With bypass feed table closed
2. Without the A(R)DF
Weight:
B245: 35 kg (78 lb.)
B268/B276: 44 kg (96 lb.)
B269/B277: 47 kg (103 lb.)
(Excluding A(R)DF, platen cover, toner, and developer)
Copying Speed in Multicopy Mode (copies/minute):
Mode B245 B276 B277
A3 SEF/11" 17" 9 10 11 1-sided
1-sided
Memory copy A4 LEF/11" x 81/2" 15 16 20
A3 SEF/11" 17" 8 8 8
A4
LEF/11"
x 81/2"
DF 1-to-1 15 16 18
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Mode B245 B276 B277
A3 SEF/11" 17" — — 5 1-sided
2-sided
Memory copy A4 LEF/11" x 81/2" — — 20
Measurement Conditions:
Figures are for one-sided original to one-sided copy except where stated
otherwise
Not APS mode
100% size
Warm-up Time: Basic model: Less than 10 seconds (at 20C [68F])
GDI model: Less than 10 seconds (at 20C [68F])
First Copy Time:
Not more than 6.5 seconds
Measurement Conditions
1. From the ready state, with the polygonal
mirror motor operating.
2. A4/LT copying
3. Not APS mode
4. 100%size
5. Paper feed from the upper tray
Copy Number Input: Numeric keypad, 1 to 99 (increment, decrement)
Manual Image Density: 5 steps
Automatic Reset: Default is 60 seconds. Can be set from 10 to 999 seconds with
user tools.
Automatic Shut-off: Default is 1 minute. Can be set from 1 to 240 minutes with user
tools.
Copy Paper Capacity:
Paper Tray:
250 sheets (B245/B276/B268)
250 sheets x 2 (B277/B269)
Optional Paper Tray Unit:
500 sheets x 1, or 500 sheets x 2
Bypass Tray:
100 sheets (sheets up to 432 mm [17"])
40 postcards
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10 envelopes
Copy weight: 80 g/m2 (20 lb.)
Toner Replenishment: Cartridge replacement (260 g/cartridge)
Optional Equipment:
Platen cover
Auto document feeder
Auto-reverse document feeder (B269/B277 only)
Paper tray unit (1 tray)
Paper tray unit (2 trays)
1-bin tray (B269/B277 only)
Tray heater (B269/B277 only)
Optics anti-condensation heater
GDI controller board
Toner Yield: 9k copies (A4 LEF, 6% full black, 1 to 2 copying, normal text
mode)
Copy-Tray Capacity 250 sheets
Memory
Basic Model: 16 MB (BICU)
GDI Model: 16 MB (BICU) + 32 MB Controller
GDI + NIC Model: 16 MB (BICU) + 64 MB Controller
Duplex Unit (B269/B277 only)
Copy Paper Size: Maximum ¬ A3/11" x 17"
Minimum ¬ A5/81/2" x 11"
Copy Paper Weight: 64 – 90 g/m2 (20 – 24 lb.)
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Supported Paper Sizes
Original Size Detection
North America, Europe, Asia, Taiwan
North America Europe/Asia/Taiwan Paper Size (W x L)
Platen ADF Platen ADF
A3 SEF 297 x 420 mm O O X X
B4 SEF 257 x 364 mm O O X X
A4 SEF 210 x 297 mm A4/LT A4/LT X X
A4 LEF 297 x 210 mm A4/LT A4/LT X X
B5 SEF 182 x 257 mm O O O X
B5 LEF 257 x 182 mm O O X X
A5 SEF 148 x 210 mm O O O X
A5 LEF 210 x 148 mm O O Sa X
B6 SEF 128 x 182 mm O O O O
B6 LEF 182 x 128 mm O O O O
8K SEF 267 x 390 mm O O O O
16K SEF 195 x 267 mm O O O O
16K LEF 267 x 195 mm O O O O
DLT SEF 11" x 17" X X O O
SEF 11" x 15" O O O O
LG SEF 81/2" x 14" X X O O
LT SEF 81/2" x 11" X X A4/LT A4/LT
LT LEF 11" x 81/2" X X A4/LT A4/LT
HLT SEF 51/2" x 81/2" O X O O
HLT LEF 81/2" x 51/2" S X O O
F/GL (F4) SEF 8" x 13" F O F F
Foolscap SEF 81/2" x 13" F O F F
Folio SEF 81/4" x 13" F O F F
USB4 SEF 10" x 14" O O O O
Eng Quarto SEF 8" x 10" O O O O
Eng Quarto LEF 10" x 8" O O O O
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Key:
X: Detected
O: Not detected
F: Detected as F (81/2" x 13")
S: Detected as specified
A4/LT: Detected as A4 or LT as specified
a When the settings of SP 4305 1 is "1: A4/LT," the settings of SP 4303 is invalidated
(A5 LEF is not detected).
China, Korea
China/Korea China/Korea (localized) Paper Size (W x L)
Platen ADF Platenb ADFc
A3 SEF 297 x 420 mm X X X O
B4 SEF 257 x 364 mm X X O O
A4 SEF 210 x 297 mm X X X O
A4 LEF 297 x 210 mm X X X O
B5 SEF 182 x 257 mm X X O O
B5 LEF 257 x 182 mm X X O O
A5 SEF 148 x 210 mm O X O X
A5 LEF 210 x 148 mm S X S X
B6 SEF 128 x 182 mm O O O O
B6 LEF 182 x 128 mm O O O O
8K SEF 267 x 390 mm O O X X
16K SEF 195 x 267 mm O O X X
16K LEF 267 x 195 mm O O X X
DLT SEF 11" x 17" O O O O
SEF 11" x 15" O O O O
LG SEF 81/2" x 14" O O O O
LT SEF 81/2" x 11" A4/LT A4/LT O O
LT LEF 11" x 81/2" A4/LT A4/LT O O
HLT SEF 51/2" x 81/2" O O O O
HLT LEF 81/2" x 51/2" O O O O
F/GL (F4) SEF 8" x 13" O F O F
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China/Korea China/Korea (localized) Paper Size (W x L)
Platen ADF Platenb ADFc
Foolscap SEF 81/2" x 13" O F O F
Folio SEF 81/4" x 13" O F O F
USB4 SEF 10" x 14" O O O O
Eng Quarto SEF 8" x 10" O O O O
Eng Quarto LEF 10" x 8" O O O O
Key:
X: Detected
O: Not detected
F: Detected as F (81/2" x 13")
S: Detected as specified
A4/LT: Detected as A4 or LT as specified
bChange the settings of SP 4305 1. Adjust the positions of the APS sensors.
cChange the settings of SP 4305 1.
Paper Feed and Exit
Main Frame, Duplex
Main frame tray
Paper Size
(W x L) China/
Korea
North
AmericaEurope
Asia/
Taiwan
Duplex
A3 SEF 297 x 420 mm X M X X X
A3 LEF 420 x 297 mm O O O O O
B4 SEF 257 x 364 mm X M M M X
B4 LEF 364 x 257 mm O O O O O
A4 SEF 210 x 297 mm X M X X X
A4 LEF 297 x 210 mm X X X X X
B5 SEF 182 x 257 mm M M M M X
B5 LEF 257 x 182 mm X M M M X
A5 SEF 148 x 210 mm O O O O X
A5 LEF 210 x 148 mm X M X X X
B6 SEF 128 x 182 mm O O O O O
B6 LEF 182 x 128 mm O O O O O
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Main frame tray
Paper Size
(W x L) China/
Korea
North
AmericaEurope
Asia/
Taiwan
Duplex
A6 SEF 105 x 148 mm O O O O O
A6 LEF 148 x 105 mm O O O O O
DLT SEF 11" x 17" M X M M X
DLT LEF 17" x 11" O O O O O
LG SEF 81/2" x 14" M X M M X
LG LEF 14" x 81/2" O O O O O
Gov. LG SEF 81/4" x 14" M M M M X
Gov. LG LEF 14" x 81/4" O O O O O
LT SEF 81/2" x 11" M X M M X
LT LEF 11" x 81/2" M X X X X
HLT SEF 51/2" x 81/2" O O O O O
HLT LEF 81/2" x 51/2" M M M M O
Executive SEF 71/4" x 101/2" M M M M X
Executive LEF 101/2" x 71/4" M M M M X
F SEF 8" x 13" M M M M X
F LEF 13" x 8" O O O O O
Foolscap SEF 81/2" x 13" M X X X X
Foolscap LEF 13" x 81/2" O O O O O
Folio SEF 81/4" x 13" M M M M X
Folio LEF 13" x 81/4" O O O O O
8K SEF 267 x 390 mm M M M M X
8K LEF 390 x 267 mm O O O O O
16K SEF 195 x 267 mm M M M M X
16K LEF 267 x 195 mm M M M M X
C5 Env. SEF 162 x 229 mm O O O O O
C6 Env. SEF 114 x 162 mm O O O O O
DL Env. SEF 110 x 220 mm O O O O O
Com10 SEF 41/8" x 91/2" O O O O O
Monarch SEF 37/8" x 71/2" O O O O O
Custom O O O O O
Key:
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X: Detected (Main frame tray)/Processed (Duplex)
O: Not detected (Main frame tray)/Not processed (Duplex)
M: Selected manually
K: Specified from the key pad
Custom W: 90 to 297 mm L: 148 to 600 mm
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Machine Configuration
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Unit/Component Machine Code Diagram
Copier (1-tray non-duplex model) B245/B268/B276 [D]
Copier (2-tray with duplex) B269/B277 [C] + [G]
Platen cover (optional) B406 [B]
ADF (optional) B813 [A]
ARDF (optional) B814 [A]
Paper tray unit–1 tray (optional) B385 [F]
Paper tray unit–2 trays (optional) B384 [E]
Copier
1-bin tray (optional) B621 [H]
GDI GDI controller (optional) B865/B866 [I]
The GDI controller comes with a dedicated controller box and printer/scanner panel.
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Optional Equipment
ARDF
Original Size:
Standard sizes
Single-sided mode: A3 to A5, 11" x 17" to
51/2" x 81/2"
Double-sided mode: A3 to A5, 11" x 17" to
51/2" x 81/2"
Non-standard sizes (Single-sided mode only)
Max. width 297 mm
Min. width 105 mm
Max. length 1260 mm
Min. length 128 mm
Original Weight: Single-sided mode: 40 – 128 g/m2,10 – 34 lb.
Double-sided mode: 52 – 105 g/m2,14 – 28 lb.
Table Capacity: 50 sheets (80 g/m2, 70 kg)
Original Standard Position: Center
Separation: FRR
Original Transport: Roller transport
Original Feed Order: From the top original
Reproduction Range: 50 to 200% (Sub scan direction only)
Power Source: 24 and 5 Vdc from the copier
Power Consumption: 50 W
Dimensions (W x D x H): 550 x 470 x 130 mm
Weight: 10 kg (22 lbs)
ADF
Original Size:
Standard sizes (Single-sided mode only):
A3 to A5, 11" x 17" to 51/2" x 81/2"
Non-standard sizes (Single-sided mode only):
Max. width 297 mm
Min. width 105 mm
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Max. length 1,260 mm
Min. length 128 mm
Original Weight: 52 – 105 g/m2 (14 – 28 lb)
Table Capacity: 30 sheets (80 g/m2, 22 lb)
Original Standard Position: Center
Separation: FRR
Original Transport: Roller transport
Original Feed Order: From the top original
Reproduction Range: 50 – 200%
Power Source: 24 and 5 Vdc (from the main frame)
Power Consumption: 25 W
Dimensions (W x D x H): 550 mm x 470 mm x 90 mm
Weight: Not above 7 kg (15 lb)
One-Tray Paper Tray Unit
Paper Size A5 to A3, 51/2" x 81/2" SEF to 11" x 17"
Paper Weight: 60 – 105 g/m2, 16 – 28 lb
Tray Capacity: 500 sheets (80 g/m2, 20 lb ) x 1 tray
Paper Feed System: Feed roller and friction pad
Paper Height Detection: 4 steps (100%, 70%, 30%, Near end)
Power Source:
24 Vdc and 5Vdc (from the copier/printer):
120 Vac (120 V version) from the copier/printer when the
optional tray heater is installed
220 – 240 Vac (230 V version) from the copier/printer when
the optional tray heater is installed
Max: 20 W (Copying/printing) 23 W (Optional Tray
Heater On) Power Consumption:
Average: 13 W (Copying/printing) 15 W (Optional Tray
Heater On)
Weight: 12 kg (26.4 lb)
Size (W x D x H): 550 mm x 520 mm x 134 mm
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Two-Tray Paper Tray Unit
Paper Size A5 to A3, 51/2" x 81/2" SEF to 11" x 17"
Paper Weight: 60 – 105 g/m2, 16 – 28 lb
Tray Capacity: 500 sheets (80 g/m2, 20 lb) x 2 trays
Paper Feed System: Feed roller and friction pad
Paper Height Detection: 4 steps (100%, 70%, 30%, Near end)
Power Source:
24 Vdc and 5Vdc (from the copier/printer):
120 Vac (120 V version) from the copier/printer when the
optional tray heater is installed
220 – 240 Vac (230 V version) from the copier/printer when
the optional tray heater is installed
Max: 30 W (Copying/printing) 23 W (Optional Tray
Heater On) Power Consumption:
Average: 17 W (Copying/printing) 15 W (Optional Tray
Heater On)
Weight: 25 kg (55 lb)
Size (W x D x H): 550 mm x 520 mm x 271 mm
One-Bin Tray
Paper Size: Width: 140 ~ 297 mm
Length: 140 ~ 432 mm
Output Standard Position: Center
Paper Weight: 60 ~ 105 g/m², 16 ~ 28 lb
Tray Capacity: 100 sheets (A4 LEF 80 g/m2, 20 lb)
Power Source: 5 VDC, 24 VDC (from the copier)
Power Consumption: Max. 20 W
Weight: 1.55 kg (Base unit: 1.1 kg, Tray: 0.45 kg)
Size (W x D x H): 461 mm x 478 mm x 104 mm
(508 mm x 478 mm x 104 mm when tray extended)